International Conference on High Energy Physics and Computational Science
Next Webinar Conference Session starts in
About the Conference
Introduction of the conferences
International Conference on High Energy Physics and Computational Science organized by ScienceFather group. ScienceFather takes the privilege to invite speakers, participants, students, delegates, and exhibitors from across the globe to its International Conference on High Energy Physics and Computational Science conferences to be held in the Various Beautiful cites of the world. Physics conferences are a discussion of common Inventions-related issues and additionally trade information, share proof, thoughts, and insight into advanced developments in the High Energy Physics and Computational Science service system. New technology may create many materials and devices with a vast range of applications, such as in Science, medicine, electronics, biomaterials, energy production, and consumer products. The focal point of Physics is to bring forward discoveries, examine the system and strategic issues, assemble and keep forth basic strategies between analysts, professionals, arrangement producers, and agents of science Associations. Essential High Energy Physics and Computational Science conferences emphasize its theme "Innovation through Information on Physics" and intends to provide an impetus to practice, administration, and training in connection to Physics inconsistencies and conjugation of other different points. Physics conferences are an opportunity to interact with specialists and learn the latest High Energy Physics and Computational Science information. The meeting will be organized to bring together practitioners, administrators, policymakers, politicians, and researchers within the field of High Energy Physics and Computational Science
Theme: Exploring the Advancements in High Energy Physics and Computational Science
Call for paper
Call for Abstract/paper
Original Articles/papers are invited from Industry Persons, Scientist, Academician, Research Scholars, P.G. & U.G. Students for presentation in our International Conference. All articles/papers must be in MS-Word (.doc or .docx) format, including the title, author's name, an affiliation of all authors, e-mail, abstract, keywords, Conclusion, Acknowledgment, and References.
SubmitĀ Abstract
The Candidates with eligibility can click the "Submit Paper/Abstract Now" button and fill up the online submission form and Submit.
Abstract/Full Paper submission
Final/Full Paper submission is optional: If you don't want your abstract/full paper to be published in the Conference Abstracts & Proceedings CD (with ISBN number) and only want to present it at the conference, it is acceptable.
Page limit: There is a limit of 6-8 pages for a final/full paper. An additional page is chargeable.
Paper language: Final/Full papers should be in English.
Templates: "Final paper template," "Final abstract template"
All the final papers should be uploaded to the website online system according to "The final paper template" as word doc. Or Docx, since this will be the camera-ready published version. Please note that final papers that are not uploaded to online System as a word doc./docx after the opening of final paper submissions according to the template above will not be published in the CONFERENCE Abstracts & Proceedings CD (with ISBN)
Date and Locations
Date and Locations
International Conference on High Energy Physics and Computational Science Organized by ScienceFather group
24th Edition of High Energy Physics and Computational Science 27-28 December 2024 | Dubai, United Arab Emirates
25th Edition of High Energy Physics and Computational Science 27-28 January 2025 | Amsterdam, Netherlands
26th Edition of High Energy Physics and Computational Science 26-27 February 2025 | London, United Kingdom
27th Edition of High Energy Physics and Computational Science 28-29 March 2025 | San Francisco, United States
28th Edition of High Energy Physics and Computational Science 25-26 April 2025 | Berlin, Germany
29th Edition of High Energy Physics and Computational Science 30-31 May 2025 | Paris, France
30th Edition of High Energy Physics and Computational Science 25-26 June 2025 | Dubai, United Arab Emirates
31st Edition of High Energy Physics and Computational Science 29-30 July 2025 | New Delhi, India
32nd Edition of High Energy Physics and Computational Science 28-29 August 2025 | Berlin, Germany
33rd Edition of High Energy Physics and Computational Science 26-27 September 2025 | Mumbai, India
34th Edition of High Energy Physics and Computational Science 27-28 October 2025 | Paris, France
35th Edition of High Energy Physics and Computational Science 28-29 November 2025 | Agra, India
36th Edition of High Energy Physics and Computational Science 29-30 December 2025 | Dubai, UnitedĀ ArabĀ Emirates
Journal Publication
Journal Publication
Physics Conferences All accepted papers will be included in the conference proceedings, which will be recommended in one of the author's prescribed ScienceFather International journals.
Registration
Registration Procedure
- Click the āRegister Nowā button on the conference page and enter your Submission ID in the Search Box
- Your Submissions will be listed on that page. You can find the Register Now link beside your submission. Click the link, and now you will be redirected to the Conference registration form where you can make your registration using credit/debit cards.
- The Fee charged for E-Poster is to display the E-Posters only on the Website. The Abstract will be published in the conference proceeding book.
Registration Types
Speaker Registration
- Access to all event Session
- Certificate of Presentation
- Handbook
- Conference Kit
- Tea, Coffee & Snack,
- Lunch during the Conference
- Publication of Abstract /Full Paper at the Conference Proceedings Book
- Opportunity to give a Keynote/ Poster Presentations/ Plenary/ Workshop
- Opportunity to publish your Abstract in any of our esteemed Journals discounted rate
- Opportunity to publish your full article in our open access book at a discounted rate
- One to One Expert Forums
Delegate (Participant) Registration
- Access to all Event Sessions
- Participation Certificate
- Handbook
- Conference Kit
- Tea, Coffee & Snack,
- Lunch during the Conference
- Delegates are not allowed to present
Poster Registration
- Includes all the above Registration Benefits
- You will have to bring your Posters to the Conference Venue
- Best poster award memento and certificate on stage.
Poster Guidelines
- The poster should be 1Ć1 m Size.
- The title, contents, text, and the authorās information should be visible.
- Present numerical data in the form of graphs rather than tables.
- Figures make trends in the data much more evident.
- Avoid submitting high word-count posters.
- Poster contains, e.g., Introduction, Methods, Results, Discussion, Conclusions, and Literature.
Research Forum (Awards)
- Includes all the above Registration Benefits.
- The attendee should be required age limit.
- Award memento and certificate on stage.
E-Poster Presentation
- The amount charged for E-Posters is to display the E-Posters only on the website
- The presenter will get an e-poster participation certificate as a soft copy
- The abstract will be published in the particular journal and also in the conference proceeding book
- The presenter is not required to be present in person at the Conference
Video Presentation
- The amount charged for Video Presentation is to display the Presentation at the Conference.
- The presenter will get Video participation certificate as a soft copy
- The abstract will be published in the particular journal and also in the conference proceeding book
- The presenter is not required to be present in person at the Conference
Accompanying Person
- Accompanying Persons attend the participants at the Conference who may be either a spouse/family partner or a son/daughter and must register under this category.
- Please note that business partners do not qualify as Accompanying Persons and cannot register as an Accompanying Person.
Committee Members
List of Committee Members
Title | First Name | Last Name | Institution/Organization | Country |
---|---|---|---|---|
Dr | Hamid | Shahivandi | Shahed University | Iran |
Prof | Elham | Tazikeh | Islamic Azad University, Gorgan Branch | Iran |
Assist Prof Dr | Ahmed H. | Ali | University of fallujah | Iraq |
Mr | Hailetsion | Mandie Mesele | Debe Markos University | Ethiopia |
Prof | Rostam | Moradin | Razi Univerity | Iran |
Prof | Yekoye | Tariku | Space science and geospatial institute | Ethiopia |
Mr | Gopalakrishnan | T | Vels Institute of Science Technology and Advanced Studies | India |
Ms | Hoda | Pourmohammad | Isfahan University of Technology | Iran |
Dr | Saadat | MAJEED | Bahuddin Zakaryia University Multan | Pakistan |
Dr | Mohammad | Ramezanitaghartapeh | Swinburne University of Technology | Australia |
Dr | Mohd Imran | Ahamed | Aligarh Muslim University Aligarh | India |
Dr | Maged | Ahmed | Sana'a University | Yemen |
Dr | Abolhassan | Mohammadi | University of Kurdistan | Iran |
Dr | Youssef | EL RHAYAM | Ibn Tofail University | Morocco |
Assoc Prof Dr | Ali | Soleimanzadeh | Urmia University | Iran |
Dr | Farhad | Qaderi | babol noshirvani university of technology | Iran |
Dr | Akhtar | Hussain | Abdus Salam School of Mathematical Sciences | Pakistan |
Prof | Soghra | Khabnadideh | Shiraz University of Medical Sciences | Iran |
Dr | Mozhgan | Hosseinnezhad | Institute for Color Science and Technology | Iran |
Dr | Rabia | Arif | Lahore School of Economics | Pakistan |
Dr | Muhammad Saleem | Mughal | Institute of Geology, University of Azad Jammu and Kashmir, Muzaffarabad 13100, Pakistan | Pakistan |
Assist Prof Dr | VAHED | GHIASI | MALAYER UNIVERSITY | Iran |
Dr | Usman | Ali | Institute of Chemistry, CAS | China |
Prof Dr | Ali | Kaveh | Civil Engineering | Iran |
Mr | mohamad | khaje khabaz | Islamic Azad University | Iran |
Dr | Masoud | Ami | IAU | Iran |
Dr | PARTHASARATHI | NARAYANASAMY | SRM INSTITUTE OF SCIENCE AND TECHNOLOGY | India |
Prof | Shohreh | Fatemi | University of Tehran, college of Engineering | Iran |
Prof Dr | Mohammad | Fatehi Marji | Faculty of Mining and Metallurgical Engineering, Yazd University | Iran |
Dr | Fares Hezam | Al-Ostoot | Al-Baydah University | Yemen |
Dr | Azam | Sobhani | Kosar university of Bojnord | Iran |
Assoc Prof Dr | Walied A. | Mohamed | National research Centre | Egypt |
Dr | Fatemeh | Abyar | Ardakan university | Iran |
Mr | Muhammad Hamza | Rafiq | The University of Lahore | Pakistan |
Dr | Ronaldo Anuf | Alexander | Kamaraj College of Engineering and Technology | India |
Prof Dr | Won | Choi | Seoul National University | South Korea |
Prof | Moustafa | Sanad | Central Metallurgical R and D Institute | Germany |
Dr | Amr | Emara | Egyptian Atomic Energy Authority | Egypt |
Mr | Mohammed | S. Gumaan | UST-Yemen | Yemen |
Prof | Akbar | Esmaeili | North Tehran Branch, Islamic Azad University | Iran |
Mr | Mohammed | S. Gumaan | UST-Yemen | Yemen |
Mrs | Fatma | Ahmed | Electronics research institute | Egypt |
Prof Dr | Sohail | Nadeem | Quaid-i-Azam University | Pakistan |
Dr | Chenouf | Jamal | Moulay Ismail University Faculty of Sciences | Morocco |
Assist Prof Dr | Yasser | Abbassi | UI | Iran |
Assist Prof Dr | Tahereh | Nikbakht | Nuclear Science and Technology Research Institute | Iran |
Assist Prof Dr | Iraj | Abedi | Isfahan University of Medical Sciences | Iran |
Assist Prof Dr | Iraj | Abedi | Isfahan University of Medical Sciences | Iran |
Dr | tehmina | kousar | chemistry | Pakistan |
Dr | Fatima Ez-Zahra | Lamzouri | Moulay Ismail University, Meknes, Morocco | Morocco |
Dr | Nafisa | Gull | Institute of Polymer and Textile Engineering, University of the Punjab, Quaid-e-Azam Campus, Lahore, 54590, Pakistan | Pakistan |
Dr | Adnan | Khalil | Khwaja fareed university of engineering and information technology Rahim yar khan | Pakistan |
Assoc Prof Dr | Muhammad Arshad | Kamran | University of Okara | Pakistan |
Mr | M. | Abdelbaky | New Mansoura University (NMU), Faculty of Science | Egypt |
Mr | Mohammad Hossein | Jamshidi | Ahvaz Jundishapur University of Medical Sciences, Ahvaz, Iran | Iran |
Mr | Mohammad Hossein | Jamshidi | Ahvaz Jundishapur University of Medical Sciences, Ahvaz, Iran | Iran |
Mr | Ali | Ghasemi | University of Qom | Iran |
Dr | Nayereh Sadat | Mousavi | IRDCI ( Iranian Institute of Research and Development in Chemical Industries) | Iran |
Dr | Asghari | Maqsood | Air University | Pakistan |
Assist Prof Dr | Esraa | Elkhateeb | Ain Shams University, Faculty of Science | Egypt |
Prof Dr | Ali | Shokri | Department of Mathematics, Faculty of Science, University of Maragheh, Maragheh 83111-55181, Iran | Iran |
Assoc Prof Dr | Masoud | Atapour | Isfahan University of TEchnology | Iran |
Dr | Ahmed | Abdelalim | Zewail City of Science and Technology | Egypt |
Dr | HAFS | HAJAR | ENSAM | Morocco |
Dr | Nadia | ARROUSSE | faculty of science dhar Mhraz | Morocco |
Dr | Majid | EL Kassaoui | UniversitƩ Mohammed V-Rabat, FacultƩ des Sciences | Morocco |
Mr | ELARBI | LAGHCHIM | Ibn Tofail university | Morocco |
Assoc Prof Dr | Muhammad Waqas | Iqbal | Riphah international university | Pakistan |
Dr | Amr | Emara | Egyptian Atomic Energy Authority | Egypt |
Dr | Samah | Al-Shelkamy | Physics department, faculty of science ,New Valley University, 72511 New Valley ,E gypt | Egypt |
Assoc Prof Dr | Asmaa M. | Fahim | National research centre | Egypt |
Dr | Mostafa | Rostamnezhad | Tehran University of Medical Sciences | Iran |
Dr | Sanaz | Alamdari | Semnan University | Iran |
Mr | Erfan | Permanoon | student | Iran |
Assoc Prof Dr | Majid | Erfanian | University of Zabol | Iran |
Dr | Wafaa | Magdy | National Research Centre, Dokki, Giza | Egypt |
Prof Dr | Ali | Shokri | Department of Mathematics, Faculty of Sciences, University of Maragheh, Maragheh 83111-55181, Iran | Iran |
Mr | Mohamed | Mira | Abdelmalek EssaĆ¢di University | Morocco |
Dr | Ahmed | Abdelalim | Zewail City of Science and Technology | Egypt |
Assist Prof Dr | Mohammed A. | Mannaa | Amran University | Yemen |
Mr | AIT ABDELKAIDR | ABDELAZIZ | FPO OUAREZAZAT, UIZ agadir | Morocco |
Dr | Kashif | Javaid | Department of Physics, Government College University faisalabad | Pakistan |
Assoc Prof Dr | Ijaz | Khan | Government College University Faisalabad | Pakistan |
Assist Prof Dr | Ghulam Abbas | Ashraf | Zhejiang Normal University | China |
Prof Dr | Zafar Hussain | Ibupoto | University of Sindh Jamshoro, Sindh Pakistan | Pakistan |
Dr | SHAKEEL AHMAD | SOFI | Govt. Degree College Kathua (J&K) | India |
Dr | Nabil | EL Nabil | Sidi Mohammed Ben Abdellah University | Morocco |
Assist Prof Dr | Zuhal | Hamd | Princess Nourah bint Abdulrahman University | Saudi Arabia |
Dr | Baiju | Dayanandan | University of Nizwa | Oman |
Prof | Abdel Fattah | Elgendy | Ain Shams University - Egypt | Egypt |
Dr | Wael | Ahmed | physics department, college of science, jouf university | Saudi Arabia |
Dr | Zaky | Zaky | Beni-Suef University | Egypt |
Dr | Mohamed | Salaheldeen | Basque Country University | Spain |
Prof Dr | Rachid | Masrour | Faculty of Sciences Dhar El Mahraz | Morocco |
Prof | Driss | Taoukil | Energy Laboratory, Physics Department, Faculty of Sciences of Tetuan, Abdelmalek Essaadi University | Morocco |
Prof Dr | Rachid | Masrour | Faculty of Sciences Dhar El Mahraz, Sidi Mohamed Ben Abdellah University | Morocco |
Prof | Shaaban | Khalil | Zewail City of Science and Technology | Egypt |
Dr | Aman | Ullah | University of Malakand | Pakistan |
Prof | Amad | Zafar | Sejong University | South Korea |
Prof Dr | Ali | AkgĆ¼l | Siirt University | Turkey |
Mr | Wellen | Rukundo | Egypt Japan University of Science and Technology | Egypt |
Prof | Abdel Fattah | Elgendy | Ain Shams University | Egypt |
Assoc Prof Dr | Wael | Altabey | Southeast University | China |
Mr | Mohammadhossein | Shahsavari | DLR and Aachen University | Germany |
Title | First Name | Last Name | Institution/Organization | Country |
Conference Awards
Details of Conference Awards
Sciencefather awards Researchers and Research organizations around the world with the motive of Encouraging and Honoring them for their Significant contributions & Achievements for the Advancement in their field of expertise. Researchers and scholars of all nationalities are eligible to receive Sciencefather Research awards. Nominees are judged on past accomplishments, research excellence, and outstanding academic achievements.
Award Categories
Best Poster Award
Posters will be evaluated based on Presentation Style, Research Quality, and Layout/Design. Unique opportunity to combine visual and oral explanations of your projects in the form of poster presentation. Posters should have the Title (with authors affiliation & contact details), Introduction, Methods, Results (with tables, graphs, pictures), Discussion, Conclusion, References, and Acknowledgements. The size of the poster should be: 1mX1.5m; Text:16-26 pt; Headings: 32-50 pt; Title: 70 pt; Color: Preferable. Bring your poster to the meeting, using tubular packaging and presenting duration: 10 min discussion & 5 min query per person.Ā Eligibility: The presenter can nominate the Award. He must be under 40 years of age as on the conference date.
Best Presentation Award
The presentation will be evaluated based on Presentation Style, Research Quality, and Layout/Design. Unique opportunity to combine visual and oral explanations of your projects in the form of poster presentations. The presentation should have the Title (with authors affiliation & contact details), Introduction, Methods, Results (with tables, graphs, pictures), Discussion, Conclusion, References, and Acknowledgements. Bring your presentation to the meeting, using a pen drive, presenting duration: 10-20 min discussion & 5 min query per person. Eligibility:Ā The presenter can nominate the Award. He must be under 55 years of age as of the conference date.
Best Paper Award
Paper will be evaluated based on Format, Research Quality, and Layout/Design. The paper should have the Title (with authors affiliation & contact details), Introduction, Methods, Results (with tables, graphs, pictures), Discussion, Conclusion, References, and Acknowledgements.Ā Eligibility: The presenter can nominate the Award. He must be under 55 years of age as of the conference date.
Instructions
Instructions for submission
If you want to submit only your Abstract
- If you want to publish only your abstract (it is also optional) in the CONFERENCE Abstracts & Proceedings CD (with ISBN), upload your abstract again according to the Final abstract template as a word doc. Or Docx.
- If you also don't want your abstract to be published in the CONFERENCE Abstracts & Proceedings CD (with an ISBN) and only want to present it at the conference, it is also acceptable.
How to Submit your Abstract / Full Paper
Please read the instructions below then submit your Abstract/ Full Paper (or just final abstract) via the online conference system:
- STEP 1: Please download the Abstract /Final Paper Template and submit your final paper strictly according to the template: Physics ConferenceĀ Final Paper Template in word format (.doc /.docx). See aĀ Final abstract templateĀ formatted according to the template.
- STEP 2: Please ensure that the Abstract/ full paper follows exactly the format and template described in the final paper template document below since this will be the camera-ready published version. All last articles should be written only in English and "word document" as .doc or .docx.
- STEP 3: You can submit your final paper(s) to the online conference system only by uploading/ Re-submission your current submission.
- STEP 4: After logging/using submission ID in the online conference system, click on the "Re-submission" link at the bottom of the page.
- STEP 5: After the "Re submission page" opens, upload your abstract/ final paper (it should be MS word document -doc. or Docx-).
General Information
- Dress Code: Participants have to wear a formal dress. There are no restrictions on color or design. The audience attending only the ceremony can wear clothing of their own choice.
- Certificate Distribution: Each presenter's name will be called & asked to collect their certificate on the Stage with an official photographer to capture the moments.
Terms & Conditions
ScienceFather Terms & Conditions
Physics Conferences Terms & Conditions Policy was last updated on June 25, 2022.
Privacy Policy
Physics conferences customer personal information for our legitimate business purposes, process and respond to inquiries, and provide our services, to manage our relationship with editors, authors, institutional clients, service providers, and other business contacts, to market our services and subscription management. We do not sell, rent/ trade your personal information to third parties.
Relationship
Physics Conferences Operates a Customer Association Management and email list program, which we use to inform customers and other contacts about our services, including our publications and events. Such marketing messages may contain tracking technologies to track subscriber activity relating to engagement, demographics, and other data and build subscriber profiles.
Disclaimer
All editorial matter published on this website represents the authors' opinions and not necessarily those of the Publisher with the publications. Statements and opinions expressed do not represent the official policies of the relevant Associations unless so stated. Every effort has been made to ensure the accuracy of the material that appears on this website. Please ignore, however, that some errors may occur.
Responsibility
Delegates are personally responsible for their belongings at the venue. The Organizers will not be held accountable for any stolen or missing items belonging to Delegates, Speakers, or Attendees; due to any reason whatsoever.
Insurance
Physics conferences Registration fees do not include insurance of any kind.
Press and Media
Press permission must be obtained from the Physics conferences Organizing Committee before the event. The press will not quote speakers or delegates unless they have obtained their approval in writing. This conference is not associated with any commercial meeting company.
Transportation
Physics Conferences Please note that any (or) all traffic and parking is the registrant's responsibility.
Requesting an Invitation Letter
Physics Conferences For security purposes, the invitation letter will be sent only to those who had registered for the conference. Once your registration is complete, please contact physicsqueries@sciencefather.comĀ to request a personalized letter of invitation.
Cancellation Policy
If Physics Conferences cancels this event, you will receive a credit for 100% of the registration fee paid. You may use this credit for another Physics Conferences event, which must occur within one year from the cancellation date.
Postponement Policy
Suppose Physics Conferences postpones an event for any reason and you are unable or indisposed to attend on rescheduled dates. In that case, you will receive a credit for 100% of the registration fee paid. You may use this credit for another Physics Conferences, which must occur within one year from the date of postponement.
Transfer of registration
Physics Conferences All fully paid registrations are transferable to other persons from the same organization if the registered person is unable to attend the event. The registered person must make transfers in writing to physicsqueries@sciencefather.com.Ā Details must include the full name of an alternative person, their title, contact phone number, and email address. All other registration details will be assigned to the new person unless otherwise specified. Registration can be transferred to one conference to another conference ofĀ ScienceFatherĀ if the person cannot attend one of the meetings. However, Registration cannot be transferred if it will be intimated within 14 days of the particular conference. The transferred registrations will not be eligible for Refund.
Visa Information
Physics Conferences Keeping given increased security measures, we would like to request all the participants to apply for Visa as soon as possible.Ā ScienceFatherĀ will not directly contact embassies and consulates on behalf of visa applicants. All delegates or invitees should apply for Business Visa only. Important note for failed visa applications: Visa issues cannot come under the consideration of the cancellation policy ofĀ ScienceFather, including the inability to obtain a visa.
Refund Policy
Physics Conferences Regarding refunds, all bank charges will be for the registrant's account. All cancellations or modifications of registration must make in writing to physicsqueries@sciencefather.com
If the registrant is unable to attend and is not in a position to transfer his/her participation to another person or event, then the following refund arrangements apply:
Keeping given advance payments towards Venue, Printing, Shipping, Hotels and other overheads, we had to keep Refund Policy is as following conditions,
- Before 60 days of the Conference: Eligible for Full Refund less $100 Service Fee
- Within 60-30 days of Conference: Eligible for 50% of payment Refund
- Within 30 days of Conference: Not eligible for Refund
- E-Poster Payments will not be refunded.
Accommodation Cancellation Policy
Physics Conferences Accommodation Providers such as hotels have their cancellation policies, and they generally apply when cancellations are made less than 30 days before arrival. Please contact us as soon as possible if you wish to cancel or amend your accommodation.Ā ScienceFatherĀ will advise your accommodation provider's cancellation policy before withdrawing or changing your booking to ensure you are fully aware of any non-refundable deposits.
Our Authorisation Policy
By registering for the event, award and conference, you grant ScienceFather permission to photograph, film, record, and use your name, likeness, image, voice, and comments. These materials may be published, reproduced, exhibited, distributed, broadcasted, edited, and/or digitized in publications, advertising materials, or any other form worldwide without compensation. Please note that the taking of photographs and/or videotaping during any session is prohibited. If you have any queries, please feel free to contact us.
Sponsorship
Sponsorship Details
Physics Conferences warmly invite you to sponsor or exhibit of International Conference. We expect participants more than 200 numbers for our International conference will provide an opportunity to hear and meet/ads to Researchers, Practitioners, and Business Professionals to share expertise, foster collaborations, and assess rising innovations across the world in the core area of mechanical engineering.
Diamond Sponsorship
- Acknowledgment during the opening of the conference
- Complimentary Booth of size 10 meters square
- Four (4) delegateās complimentary registrations with lunch
- Include marketing document in the delegate pack
- Logo on Conference website, Banners, Backdrop, and conference proceedings
- One exhibition stand (1Ć1 meters) for the conference
- One full cover page size ad in conference proceedings
- Opportunities for Short speech at events
- Option to sponsors conference kit
- Opportunity to sponsors conference lanyards, ID cards
- Opportunity to sponsors conference lunch
- Recognition in video ads
- 150-word company profile and contact details in the delegate pack
Platinum Sponsorship
- Three (3) delegateās complimentary registrations with lunch
- Recognition in video ads
- Opportunity to sponsors conference lunch
- Opportunity to sponsors conference lanyards, ID cards
- Opportunity to sponsors conference kit
- Opportunity for Short speech at events
- One full-page size ad in conference proceedings
- One exhibition stand (1Ć1 meters) for the conference
- Logo on Conference website, Banners, Backdrop, and conference proceedings
- Include marketing document in the delegate pack
- Complimentary Booth of size 10 meters square
- Acknowledgment during the opening of the conference
- 100-word company profile and contact details in the delegate pack
Gold Sponsorship
- Two (2) delegateās complimentary registrations with lunch
- Opportunities for Short speech at events
- Logo on Conference website, Banners, Backdrop, and conference proceedings
- Include marketing document in the delegate pack
- Complimentary Booth of size 10 meters square
- Acknowledgment during the opening of the conference
- 100-word company profile and contact details in the delegate pack
- Ā½ page size ad in conference proceedings
Silver Sponsorship
- Acknowledgment during the opening of the conference
- One(1) delegateās complimentary registrations with lunch
- Include marketing document in the delegate pack
- Logo on Conference website, Banners, Backdrop, and conference proceedings
- Ā¼ page size ad in conference proceedings
- 100-word company profile and contact details in the delegate pack
Individual Sponsorship
- Acknowledgment during the opening of the conference
- One(1) delegateās complimentary registrations with lunch
Registration Fees
Details | Registration fees |
Diamond Sponsorship | USD 2999 |
Platinum Sponsorship | USD 2499 |
Gold Sponsorship | USD 1999 |
Silver Sponsorship | USD 1499 |
Individual Sponsorship | USD 999 |
Exhibitions
Exhibitions Details
Exhibit your Products & Services
Exhibit your Products & Services at Physics Conferences. Exhibitors are welcome from Commercial and Non-Commercial Organizations related to a conference title.
- The best platform to develop new partnerships & collaborations.
- Best location to speed up your route into every territory in the World.
- Our exhibitor booths were visited 4-5 times by 80% of the attendees during the conference.
- Network development with both Academia and Business.
Exhibitor Benefits
- Exhibit booth of Size-3X3 sqm.
- Promotion of your logo/Company Name/Brand Name through the conference website.
- Promotional video on company products during the conference (Post session and Breaks).
- Logo recognition in the Scientific program, Conference banner, and flyer.
- One A4 flyer inserts into the conference kit.
- An opportunity to sponsor 1 Poster Presentation Award.
Session Tracks
Conference Session And Tracks
Track 1: Particle Accelerators
AĀ particleĀ accelerator is a mechanism that accelerates elementary particles to extremely high energies, such as electrons or protons. Particle accelerators, at its most basic level, produce charged particle beams that can be employed for a variety of scientific applications. ParticleĀ acceleratorsĀ are divided into two categories: linear accelerators and circular accelerators. Particles are propelled along a linear, or straight, beam line using linear accelerators. Particles are propelled along a circular track using circular accelerators. Fixed-target studies require linear accelerators, whereas colliding beam and fixed-target experiments require circular accelerators.
- Electrodynamic particle accelerators
- Magnetic induction accelerators
- Linear accelerators
- Circular or cyclic RF accelerators
- Betatrons
Related Conferences: Physics ConferencesĀ | Physics Conferences 2024 | High Energy Physics Conferences | Quantum Physics Conferences | Astronomy And Astrophysics Conferences | Nuclear Physics Conferences
Track 2: High Energy Nuclear Physics
Understanding the properties and behaviour ofĀ elementaryĀ particles through the study of collisions or decays involving energy of hundreds ofĀ megaelectronvoltsĀ is a branch of physics. The exploration of nuclear matter under severe conditions, as well as theĀ Quark-GluonĀ Plasma, which existed for roughly a microsecond after the Big Bang, is part of high-energy nuclear research. It now includes exotic mesons, multi-GeV reaction investigations, and the quark-gluon plasma, which were formerly considered particle physics issues.
- Nuclear decay
- Nuclear fusion
- Nuclear fission
- Production of "heavy" elements
- Nuclear matter
Related Conferences: Physics ConferencesĀ | Physics Conferences 2024 | High Energy Physics Conferences | Quantum Physics Conferences | Astronomy And Astrophysics Conferences | Nuclear Physics Conferences
Track 3: Atomic, Molecular & Optical Physics
Atomic physics examines atoms as a separate system of electrons and an atomic nucleus, whereas molecular physics examines the physical features of molecules. Optical physics makes use of and develops light sources that range from microwaves to X-rays across the electromagnetic spectrum. The generation and detection of light, linear and nonlinear optical processes, spectroscopy, lasers, and laser spectroscopy are all covered by optical physics. The three branches are inextricably linked. These areas naturally include the theory and applications of emission, absorption, and scattering of electromagnetic radiation from atoms and molecules, spectroscopic analysis, laser and maser creation, and optical characteristics of matter.
- Atomic nucleus
- Electromagnetic radiation
- Optical engineering
- Quantum optics
- Optical coherence tomography
Related Conferences: Physics ConferencesĀ | Physics Conferences 2024 | High Energy Physics Conferences | Quantum Physics Conferences | Astronomy And Astrophysics Conferences 2024 | Nuclear Physics Conferences
Track 4: Quantum Physics
Quantum theory is the theoretical foundation of modern physics, explaining the nature and behaviour of matter and energy on an atomic and subatomic scale. Quantum physics is the study of the nature and behaviour of matter and energy at that level. Quantum physics is the study of small objects that are affected by quantum reality. Quantum is a term that refers to a distinct amount or part. One of the most surprising and contentious elements of quantum physics is that the outcome of a single experiment on a quantum system cannot be predicted with certainty.
- Quantum Realm
- Quantum field theory
- Quantum information science
- Quantum mechanics
- Quantum interference
Related Conferences: Physics ConferencesĀ | Physics Conferences 2024 | High Energy Physics Conferences | Quantum Physics Conferences | Astronomy And Astrophysics Conferences 2024 | Nuclear Physics Conferences
Track 5: Astrophysics
AstrophysicsĀ is a branch of traditional astronomy that studies celestial bodies and events. Astrophysics is a term that encompasses bothĀ astronomy and physics. Electronics, advanced computing, communication satellites, optics, solar panels, and MRI scanners are some of the domains where astronomy research can be seen in action. Even if it takes time for an application of astrophysics research to find its way into our daily lives, the influence it has is well worth the wait.
- Radio astronomy.
- Optical astronomy.
- Infrared astronomy.
- Ultraviolet, X-ray, and gamma ray astronomy using space telescopes.
- Cosmology
Related Conferences: Physics ConferencesĀ | Physics Conferences 2024 | High Energy Physics Conferences | Quantum Physics Conferences | Astronomy And Astrophysics Conferences 2024 | Nuclear Physics Conferences
Track 6: Electromagnetism and Electronics
ElectromagnetismĀ is one of the four fundamental forces and is a discipline of physics concerned with the study of the electromagnetic force. It is concerned with the physical interactions of electricity and magnetism. Electronics, on the other hand, is the study of how to control electron flow. Analogue electronics, Digital electronics, Microelectronics, and Embedded systems are some of the branches ofĀ electronics.
- Dipoles and Monopoles
- Strength of magnetic field
- Permeability, paramagnetism, ferromagnetism and diamagnetism
- Cause of magnetism
- Retentivity
- Inductance
Related Conferences: Physics ConferencesĀ | Physics Conferences 2024 | High Energy Physics Conferences | Quantum Physics Conferences | Astronomy And Astrophysics Conferences 2024 | Nuclear Physics Conferences
Track 7: Classical & Modern physics
Classical physics is concerned with matter and energy on a regular scale of observation, whereas current physics is concerned with matter and energy behaviour under severe conditions or on a very large or very small scale. Time and space are absolute and independent in classical physics, therefore they can be considered separately. Time and space, on the other hand, are relative and dependent in current physics. We can distinguish acoustics, optics, or mechanics in the most fundamental area, and cosmology, quantum mechanics, or relativity in the most current applications, between the branches of classical and modern physics.
- Classical mechanics. Newton's laws of motion
- Classical electrodynamics
- Classical thermodynamics
- Special relativity and general relativity
- Classical chaos theory and nonlinear dynamics
Related Conferences: Physics ConferencesĀ | Physics Conferences 2024 | High Energy Physics Conferences | Quantum Physics Conferences | Astronomy And Astrophysics Conferences 2024 | Nuclear Physics Conferences
Track 8: Condensed Matter Physics
Material that has been compressed Physics is an area ofĀ materialĀ science concerned with the physical properties of matter'sĀ condensateĀ phase, in which particles adhere to one another. The laws of quantum mechanics and electromagnetism are two examples. It has a strong connection to atomic physics and biology. The creation of theĀ semiconductorĀ transistor, laser technology, and various phenomena explored in the context ofĀ nanotechnology are all examples of condensed matter physics research.
- Anderson impurity model
- Colloid vibration current
- Degenerate semiconductor
- Dynamic electrophoretic mobility
- Electric-field screening
Related Conferences: Physics ConferencesĀ | Physics Conferences 2024 | High Energy Physics Conferences | Quantum Physics Conferences | Astronomy And Astrophysics Conferences 2024 | Nuclear Physics Conferences
Track 9: Material Physics
The field of physics that deals with the physical properties of materials is known asĀ material physics. It is a subclass of condensed matter physics that applies fundamental condensed matter concepts to complicated multiphase fluids, including technologically important materials. It lays the groundwork for the creation of novel materials with previously unattainable functions for future critical technologies likeĀ nanotechnology and biomaterials. Materials physics has applications in a variety of sectors, including materials engineering and medicine, as well as climate protection through resource efficiency.
- Classical mechanics.
- Thermodynamics and statistical mechanics.
- Electromagnetism and photonics.
- Relativistic mechanics.
- Quantum mechanics, atomic physics, and molecular physics.
Related Conferences: Physics ConferencesĀ | Physics Conferences 2024 | High Energy Physics Conferences | Quantum Physics Conferences | Astronomy And Astrophysics Conferences 2024 | Nuclear Physics Conferences
Track 10: Medical Physics
TheĀ Medical PhysicsĀ section of Current Oncology's mission is to give information and assessments on these significant advances in image-guided adaptive radiation therapy. Critical evaluation studies of the clinical application and effect of novel and clinically established technologies are also published in CurrentĀ Oncology. The application of physics principles, theories, and methodologies to medicine or healthcare is known as medical physics.
- Medical imaging physics.
- Radiation therapeutic physics.
- Nuclear medicine physics.
- Health physics.
- Non-ionizing Medical Radiation Physics.
- Physiological measurement.
Related Conferences: Physics ConferencesĀ | Physics Conferences 2024 | High Energy Physics Conferences | Quantum Physics Conferences | Astronomy And Astrophysics Conferences 2024 | Nuclear Physics Conferences
Track 11: Nano-Technology
Nanotechnology is the study of materials and machinery on a billionth-of-a-meter scale. It is one of the most dynamic areas of research and development since it is so important in fundamental physics, applied physics and engineering, and molecular materials. Many technology and business sectors, including information technology, homeland security, medicine, transportation, energy, and others, are being revolutionised by nanotechnology.
- Carbon black, carbon nanotubes, graphene, fullerene nanofibers fullerene
- Silica fumes
- Clay
- Metal/alloys
- Ceramics
Related Conferences: Physics ConferencesĀ | Physics Conferences 2024 | High Energy Physics Conferences | Quantum Physics Conferences | Astronomy And Astrophysics Conferences 2024 | Nuclear Physics Conferences
Track 12: Theory of Relativity
MatterĀ does not simply draw on other matter over empty space, as Newton predicted. Matter, on the other hand, jumbles space-time, and other matter is affected by this jumbled space-time. Objects (including planets like the Earth) travel through space-time under their own inertia, following curved paths because the shortest path (or geodesic) in twisted space-time is along curved paths.
- Einstein Theory of Relativity.
- Relativism
- Special relativity
- General relativity
- Cosmological
Related Conferences: Physics ConferencesĀ | Physics Conferences 2024 | High Energy Physics Conferences | Quantum Physics Conferences | Astronomy And Astrophysics Conferences 2024 | Nuclear Physics Conferences
Popular Books
Introduction to Elementary Particles by David J. Griffiths, 2nd edition, 2008, Wiley-VCH | 2. Quantum Field Theory for the Gifted Amateur by Tom Lancaster and Stephen J. Blundell, 1st edition, 2014, Oxford University Press | 3. Particle Physics: A Very Short Introduction by Frank Close, 1st edition, 2004, Oxford University Press | 4. Modern Particle Physics by Mark Thomson, 1st edition, 2013, Cambridge University Press | 5. An Introduction to High Energy Physics by A. Das and T. Ferbel, 4th edition, 2003, Wiley-VCH | 6. The Standard Model and Beyond by Paul Langacker, 2nd edition, 2019, CRC Press | 7. Quarks and Leptons: An Introductory Course in Modern Particle Physics by Francis Halzen and Alan D. Martin, 1st edition, 1984, Wiley-VCH | 8. The Physics of the Standard Model and Beyond by T. D. Lee and G. C. Wick, 1st edition, 1990, Cambridge University Press | 9. Quantum Chromodynamics by Walter Greiner and Stefan Schramm, 2nd edition, 1994, Springer | 10. Introduction to Gauge Field Theory by Gerard \'t Hooft, 1st edition, 1980, Addison-Wesley Publishing Company | 11. The Quantum Theory of Fields by Steven Weinberg, 3 volumes, 1st edition, 1995, Cambridge University Press | 12. Gauge Fields, Knots, and Gravity by John Baez and Javier P. Muniain, 2nd edition, 1994, World Scientific | 13. An Introduction to Gauge Theories and Modern Particle Physics by Elliot Leader and Enrico Predazzi, 2nd edition, 1996, Cambridge University Press | 14. Group Theory in Physics by Wu-Ki Tung, 1st edition, 1985, World Scientific | 15. Modern Quantum Mechanics by J. J. Sakurai and Jim Napolitano, 2nd edition, 2017, Addison-Wesley | 16. Relativistic Quantum Mechanics and Field Theory by Franz Gross and Andre Neveu, 1st edition, 1991, Wiley-VCH | 17. The Early Universe by Edward Kolb and Michael Turner, 1st edition, 1990, Addison-Wesley | 18. Cosmic Strings and Other Topological Defects by Alex Vilenkin and E. P. S. Shellard, 1st edition, 1994, Cambridge University Press | 19. Introduction to Cosmology by Barbara Ryden, 2nd edition, 2017, Cambridge University Press | 20. Neutrino Physics by Kai Zuber, 1st edition, 2004, CRC Press | 21. An Introduction to Quantum Field Theory by Michael E. Peskin and Daniel V. Schroeder, 1st edition, 1995, Westview Press | 22. Field Quantization by Walter Greiner and Joachim Reinhardt, 1st edition, 1996, Springer | 23. String Theory and M-Theory: A Modern Introduction by Katrin Becker, Melanie Becker, and John H. Schwarz, 1st edition, 2007, Cambridge University Press | 24. Introduction to Supersymmetry by Adel Bilal, 1st edition, 2001, Springer | 25. The Principles of Quantum Mechanics by P. A. M. Dirac, 4th edition, 1958, Oxford University Press | 26. Quantum Mechanics and Path Integrals by Richard P. Feynman and Albert R. Hibbs, 1st edition, 1965, McGraw-Hill | 27. An Introduction to Black Holes, Information and the String Theory Revolution by Leonard Susskind and James Lindesay, 1st edition, 2004, World Scientific | 28. The Quantum Theory of Fields: Volume 4, Quantum Electrodynamics by Steven Weinberg, 1st edition, 1996, Cambridge University Press | 29. Supersymmetry and Supergravity by Julius Wess and Jonathan Bagger, 2nd edition, 1992, Princeton University Press | 30. An Introduction to Relativistic Processes and the Standard Model of Electroweak Interactions by Carlo Giunti and Chung W. Kim, 1st edition, 2007, Springer | 31. Introduction to Modern Cosmology by Andrew Liddle, 3rd edition, 2015, Wiley | 32. Introduction to High-Energy Astrophysics by Marcos L. Rosa, 2nd edition, 2013, CRC Press | 33. Neutrinos in Particle Physics, Astrophysics and Cosmology by Zhi-zhong Xing and Shun Zhou, 2nd edition, 2015, Springer | 34. Modern Elementary Particle Physics by Gordon Kane, 2nd edition, 1993, Perseus Books | 35. The Physics of the Quark-Gluon Plasma by Larry McLerran and Raju Venugopalan, 1st edition, 2004, Cambridge University Press | 36. String Theory and M-Theory: A Modern Introduction by Katrin Becker, Melanie Becker, and John H. Schwarz, 2nd edition, 2007, Cambridge University Press | 37. Introduction to Superstrings and M-Theory by Michio Kaku, 2nd edition, 1999, Springer | 38. An Introduction to Nuclear Physics by W. N. Cottingham and D. A. Greenwood, 2nd edition, 2001, Cambridge University Press | 39. Introduction to Relativistic Quantum Field Theory by E. Abers and B. Lee, 1st edition, 1977, Wiley | 40. Modern Quantum Mechanics by J. J. Sakurai and Jim Napolitano, 1st edition, 2011, Addison-Wesley | 41. The Road to Reality: A Complete Guide to the Laws of the Universe by Roger Penrose, 1st edition, 2004, Vintage Books | 42. Introduction to Elementary Particle Physics by Alessandro Bettini, 1st edition, 2008, Cambridge University Press | 43. Neutron Stars, Black Holes and Binary X-Ray Sources by Lewin, van der Klis, and Wijnands, 1st edition, 2003, Cambridge University Press | 44. Introduction to Cosmology and Particle Physics by A. D. Sakharov, 1st edition, 2008, CRC Press | 45. Elementary Particle Physics: Concepts and Phenomena by R. N. Mohapatra and Palash B. Pal, 1st edition, 1998, CRC Press | 46. Introduction to Supersymmetry and Supergravity by H. Nilles, 1st edition, 1984, World Scientific | 47. The Large Hadron Collider: A Marvel of Technology by Lyndon R. Evans and Philip Bryant, 1st edition, 2009, Springer | 48. Introduction to Gauge Field Theories by C. Becchi, A. Rouet, and R. Stora, 1st edition, 1986, World Scientific | 49. Introduction to Quantum Mechanics by David J. Griffiths, 3rd edition, 2018, Cambridge University Press | 50. Introduction to Black Hole Astrophysics by Gustavo E. Romero, 1st edition, 2014, Springer | 51. Gauge Fields, Knots and Gravity by John Baez and Javier P. Muniain, 1st edition, 1994, World Scientific | 52. Particle Physics and Introduction to Field Theory by Markus Luty, 1st edition, 2019, Cambridge University Press | 53. Modern Particle Physics by Mark Thomson, 1st edition, 2013, Cambridge University Press | 54. Quantum Field Theory and the Standard Model by Matthew D. Schwartz, 1st edition, 2014, Cambridge University Press | 55. The Early Universe by Edward Kolb and Michael Turner, 1st edition, 1994, Westview Press | 56. The Quantum Theory of Fields: Volume 1, Foundations by Steven Weinberg, 1st edition, 1995, Cambridge University Press | 57. Quantum Field Theory by Claude Itzykson and Jean-Bernard Zuber, 1st edition, 1980, McGraw-Hill | 58. The Structure of Scientific Revolutions by Thomas S. Kuhn, 3rd edition, 1996, University of Chicago Press | 59. Group Theory in a Nutshell for Physicists by A. Zee, 2nd edition, 2016, Princeton University Press | 60. Quantum Chromodynamics by Walter Greiner and Stefan Schramm, 1st edition, 1994, Springer | 61. Introduction to Modern Cosmology by Andrew Liddle, 2nd edition, 2003, Wiley | 62. Introduction to Superstring Theory by E. Kiritsis, 1st edition, 1998, Leuven University Press | 63. A First Course in Loop Quantum Gravity by Rodolfo Gambini and Jorge Pullin, 1st edition, 2011, Oxford University Press | 64. An Introduction to the Standard Model of Particle Physics by W. N. Cottingham and D. A. Greenwood, 2nd edition, 2007, Cambridge University Press | 65. Particles and Nuclei: An Introduction to the Physical Concepts by Bogdan Povh, Klaus Rith, Christoph Scholz, and Frank Zetsche, 7th edition, 2015, Springer | 66. Advanced Quantum Mechanics by Franz Schwabl, 1st edition, 1995, Springer | 67. The Standard Model and Beyond by Paul Langacker, 1st edition, 2010, CRC Press | 68. The Standard Model: A Primer by Cliff Burgess and Guy Moore, 1st edition, 2007, Cambridge University Press | 69. The Large Scale Structure of Space-Time by Stephen Hawking and George Ellis, 1st edition, 1973, Cambridge University Press | 70. Quantum Gravity by Carlo Rovelli, 1st edition, 2004, Cambridge University Press | 71. Lectures on Quantum Chromodynamics by Andrei Smilga, 1st edition, 2001, World Scientific | 72. Particle Physics: A Very Short Introduction by Frank Close, 1st edition, 2004, Oxford University Press | 73. An Introduction to Particle Physics and the Standard Model by Robert Mann, 1st edition, 2010, CRC Press | 74. Introduction to Elementary Particle Physics by Alessandro Bettini, 1st edition, 2008, Cambridge University Press | 75. Quantum Field Theory by Lewis Ryder, 2nd edition, 1996, Cambridge University Press | 76. Introduction to Gauge Field Theory by Michael E. Peskin and Daniel V. Schroeder, 1st edition, 1995, Westview Press | 77. The Early Universe: Facts and Fiction by G. R. Farrar and P. J. E. Peebles, 1st edition, 1993, Addison-Wesley Publishing Company | 78. String Theory and M-Theory: A Modern Introduction by Katrin Becker, Melanie Becker, and John H. Schwarz, 1st edition, 2007, Cambridge University Press | 79. Quantum Gravity: From Theory to Experimental Search by Claus Kiefer, 3rd edition, 2012, Oxford University Press | 80. The Theory of Gauge Fields in Four Dimensions by Karen Campbel, Michael Chanowitz, Stephen Sharpe, and Paul Langacker, 1st edition, 1986, World Scientific | 81. Introduction to Elementary Particle Physics by David J. Griffiths, 2nd edition, 2008, Wiley-VCH | 82. Cosmology by Steven Weinberg, 1st edition, 2008, Oxford University Press | 83. Quantum Mechanics and Path Integrals by Richard P. Feynman and Albert R. Hibbs, 1st edition, 1965, McGraw-Hill | 84. The Road to Reality: A Complete Guide to the Laws of the Universe by Roger Penrose, 1st edition, 2005, Vintage Books | 85. Introduction to Elementary Particle Physics by H. A. Bethe and E. E. Salpeter, 1st edition, 1957, Dover Publications | 86. Modern Cosmology by Scott Dodelson, 1st edition, 2003, Academic Press | 87. Quantum Mechanics: Concepts and Applications by Nouredine Zettili, 2nd edition, 2009, Wiley | 88. A First Course in General Relativity by Bernard Schutz, 2nd edition, 2009, Cambridge University Press | 89. Particle Physics and Cosmology by K. A. Olive, 2nd edition, 2016, Springer | 90. Relativistic Quantum Mechanics and Field Theory by Franz Gross, 1st edition, 1993, Wiley | 91. Introduction to Supersymmetry by Adel Bilal, 2nd edition, 2001, Springer | 92. Modern Elementary Particle Physics: Explaining and Extending the Standard Model by Gordon Kane, 1st edition, 1993, Addison-Wesley Publishing Company | 93. Introduction to Elementary Particles by David Griffiths, 2nd edition, 2008, Wiley-VCH | 94. Relativity: The Special and General Theory by Albert Einstein, 1st edition, 1916, Henry Holt and Company | 95. Special Relativity: An Introduction with 200 Problems and Solutions by Michael Tsamparlis, 1st edition, 2010, Springer | 96. Group Theory in Physics: An Introduction by John F. Cornwell, 3rd edition, 1997, Academic Press | 97. Introduction to the Standard Model of Particle Physics by W. N. Cottingham and D. A. Greenwood, 2nd edition, 2007, Cambridge University Press | 98. An Introduction to Quantum Field Theory by Michael E. Peskin and Daniel V. Schroeder, 1st edition, 1995, Westview Press | 99. The Physics of the Quark-Gluon Plasma by Jean-Paul Blaizot and Edward Iancu, 1st edition, 2001, Cambridge University Press | 100. Particle Physics and Inflationary Cosmology by Andrei Linde, 1st edition, 2005, Taylor & Francis
Related Societies
1. American Physical Society - USA | 2. European Physical Society - Europe | 3. International Association of Mathematical Physics - International | 4. International Union of Pure and Applied Physics - International | 5. African Physical Society - Africa | 6. Argentine Physical Society - Argentina | 7. Australian Institute of Physics - Australia | 8. Austrian Physical Society - Austria | 9. Belgian Physical Society - Belgium | 10. Brazilian Society of Physics - Brazil | 11. Bulgarian Physical Society - Bulgaria | 12. Canadian Association of Physicists - Canada | 13. Chilean Physical Society - Chile | 14. Chinese Physical Society - China | 15. Croatian Physical Society - Croatia | 16. Czech Physical Society - Czech Republic | 17. Danish Physical Society - Denmark | 18. Dutch Physical Society - Netherlands | 19. Egyptian Physical Society - Egypt | 20. Estonian Physical Society - Estonia | 21. Finnish Physical Society - Finland | 22. French Physical Society - France | 23. Georgian Physical Society - Georgia | 24. German Physical Society - Germany | 25. Greek Physical Society - Greece | 26. Hungarian Physical Society - Hungary | 27. Indian Physical Society - India | 28. Indonesian Physical Society - Indonesia | 29. Institute of Physics - UK | 30. Institute of Physics of the Czech Academy of Sciences - Czech Republic | 31. Institute of Physics of the Slovak Academy of Sciences - Slovakia | 32. Institute of Physics, Polish Academy of Sciences - Poland | 33. Iranian Physical Society - Iran | 34. Irish Physics Society - Ireland | 35. Israeli Physical Society - Israel | 36. Italian Physical Society - Italy | 37. Japan Society of Applied Physics - Japan | 38. Japan Society of Plasma Science and Nuclear Fusion Research - Japan | 39. Jordanian Physical Society - Jordan | 40. Korean Physical Society - South Korea | 41. Latvian Physical Society - Latvia | 42. Lebanese Physical Society - Lebanon | 43. Lithuanian Physical Society - Lithuania | 44. Luxembourg Physical Society - Luxembourg | 45. Macedonian Physical Society - North Macedonia | 46. Malaysian Solid State Science and Technology Society - Malaysia | 47. Mexican Physical Society - Mexico | 48. Moldovan Physical Society - Moldova | 49. Moroccan Physical Society - Morocco | 50. Nepalese Physical Society - Nepal | 51. New Zealand Institute of Physics - New Zealand | 52. Nigerian Institute of Physics - Nigeria | 53. Norwegian Physical Society - Norway | 54. Pakistan Institute of Physics - Pakistan | 55. Palestine Physical Society - Palestine | 56. Peruvian Physical Society - Peru | 57. Philippine Physical Society - Philippines | 58. Physical Society of Hong Kong - Hong Kong | 59. Physical Society of Japan - Japan | 60. Physical Society of Korea - South Korea | 61. Polish Physical Society - Poland | 62. Portuguese Physical Society - Portugal | 63. Romanian Physical Society - Romania | 64. Russian Physical Society - Russia | 65. Saudi Physical Society - Saudi Arabia | 66. Serbian Physical Society - Serbia | 67. Singapore National Institute of Physics - Singapore | 68. Slovak Physical Society - Slovakia | 69. Slovenian Physical Society - Slovenia | 70. South African Institute of Physics - South Africa | 71. Spanish Royal Physics Society - Spain | 72. Sri Lanka Association for the Advancement of Science - Sri Lanka | 73. Sudanese Physical Society - Sudan | 74. Swedish Physical Society - Sweden | 75. Swiss Physical Society - Switzerland | 76. Syrian Physical Society - Syria | 77. Taiwan Physical Society - Taiwan | 78. Thai Physics Society - Thailand | 79. Tunisian Physical Society - Tunisia | 80. Turkish Physical Society - Turkey | 81. UAE Physical Society - United Arab Emirates | 82. Ukrainian Physical Society - Ukraine | 83. Brookhaven National Laboratory - USA | 84. Uruguay Physical Society - Uruguay | 85. Uzbekistan Physical Society - Uzbekistan | 86. Venezuelan Physical Society - Venezuela | 87. Vietnamese Physical Society - Vietnam | 88. Association of Asia Pacific Physical Societies - Asia Pacific | 89. Association of Latin American Physicists and Astronomers - Latin America | 90. Asia Pacific Center for Theoretical Physics - Korea | 91. European Organization for Nuclear Research (CERN) - Europe | 92. European Synchrotron Radiation Facility (ESRF) - Europe | 93. Fermi National Accelerator Laboratory (Fermilab) - USA | 94. High Energy Accelerator Research Organization (KEK) - Japan | 95. International Centre for Theoretical Physics (ICTP) - Italy | 96. Joint Institute for Nuclear Research (JINR) - Russia | 97. National Institute for Nuclear Physics (INFN) - Italy | 98. National Institute of Standards and Technology (NIST) - USA | 99. Oak Ridge National Laboratory (ORNL) - USA | 100. Thomas Jefferson National Accelerator Facility (Jefferson Lab) - USA
Popular Researchers
1. Nima Arkani-Hamed - Theoretical Particle Physics, Institute for Advanced Study, USA | 2. Juan Maldacena - String Theory, Institute for Advanced Study, USA | 3. Edward Witten - String Theory, Institute for Advanced Study, USA | 4. David Gross - Quantum Field Theory, University of California, Santa Barbara, USA | 5. Sheldon Glashow - Particle Physics, Boston University, USA | 6. Steven Weinberg - Particle Physics, University of Texas at Austin, USA | 7. Gerard \'t Hooft - Quantum Field Theory, Utrecht University, Netherlands | 8. Frank Wilczek - Particle Physics, Massachusetts Institute of Technology, USA | 9. John Ellis - Theoretical Particle Physics, King\'s College London, UK | 10. Lisa Randall - Theoretical Particle Physics, Harvard University, USA | 11. Michael Dine - Theoretical Particle Physics, University of California, Santa Cruz, USA | 12. Hitoshi Murayama - Particle Physics and Cosmology, University of California, Berkeley, USA | 13. Giovanni Amelino-Camelia - Quantum Gravity and Cosmology, Sapienza University of Rome, Italy | 14. Alan Guth - Cosmology, Massachusetts Institute of Technology, USA | 15. Neil Turok - Cosmology and Theoretical Physics, Perimeter Institute for Theoretical Physics, Canada | 16. Adam Falkowski - Particle Physics, Laboratoire de Physique ThĆ©orique et Hautes Ćnergies, France | 17. Mark Wise - Particle Physics, California Institute of Technology, USA | 18. Marcela Carena - Particle Physics, Fermi National Accelerator Laboratory, USA | 19. Thomas Appelquist - Particle Physics, Yale University, USA | 20. Mikael BergnĆ©r - Particle Physics, Lund University, Sweden | 21. Mihailo BackoviÄ - Particle Physics, Ćcole Polytechnique FĆ©dĆ©rale de Lausanne, Switzerland | 22. Fabrizio Caola - Particle Physics, UniversitĆ© catholique de Louvain, Belgium | 23. Alberto Zucchetta - Particle Physics, University of Padua, Italy | 24. Zvi Bern - Particle Physics, University of California, Los Angeles, USA | 25. Lance Dixon - Particle Physics, SLAC National Accelerator Laboratory, USA | 26. Christopher Tully - Particle Physics, Princeton University, USA | 27. Kyle Cranmer - Particle Physics, New York University, USA | 28. Andreas Weiler - Particle Physics, Technical University of Munich, Germany | 29. Peter Schleper - Particle Physics, RWTH Aachen University, Germany | 30. Markus Klute - Particle Physics, Massachusetts Institute of Technology, USA | 31. Takaaki Kajita - Neutrino Physics, University of Tokyo, Japan | 32. Arthur B. McDonald - Neutrino Physics, Queen\'s University, Canada | 33. Giorgio Gratta - Neutrino Physics, Stanford University, USA | 34. Carlo Rubbia - Neutrino Physics, ETH Zurich, Switzerland | 35. John Learned - Neutrino Physics, University of Hawaii, USA | 36. Atsuto Suzuki - Neutrino Physics, KEK, Japan | 37. Art McDonald - Neutrino Physics, Queen\'s University, Canada | 38. Laura Baudis - Dark Matter, University of Zurich, Switzerland | 39. Gianfranco Bertone - Dark Matter, University of Amsterdam, Netherlands | 40. Dan Hooper - Dark Matter, Fermi National Accelerator Laboratory, USA | 41. Hitoshi Yamamoto - Particle Physics, Nagoya University, Japan | 42. Kaoru Hagiwara - Particle Physics, Kyoto University, Japan | 43. Hooman Davoudiasl - Particle Physics, Brookhaven National Laboratory, USA | 44. James Wells - Particle Physics, University of Michigan, USA | 45. JoAnne Hewett - Particle Physics, SLAC National Accelerator Laboratory, USA | 46. Jonathan Feng - Particle Physics, University of California, Irvine, USA | 47. Maxim Perelstein - Particle Physics, Cornell University, USA | 48. Peter Higgs - Theoretical Particle Physics, University of Edinburgh, UK | 49. David Shih - Particle Physics, Rutgers University, USA | 50. Daniel Whiteson - Particle Physics, University of California, Irvine, USA | 51. Alexander Kusenko - Particle Physics, University of California, Los Angeles, USA | 52. Thomas Schwetz-Mangold - Neutrino Physics, RWTH Aachen University, Germany | 53. Karsten Heeger - Neutrino Physics, Yale University, USA | 54. Mark Messier - Neutrino Physics, Indiana University, USA | 55. Andre de Gouvea - Neutrino Physics, Northwestern University, USA | 56. IceCube Collaboration - Neutrino Physics, Various institutions worldwide | 57. Tom Banks - Theoretical Physics, Rutgers University, USA | 58. Andreas Karch - Theoretical Physics, University of Washington, USA | 59. Tomonori Ugajin - Particle Physics, KEK, Japan | 60. Michael Peskin - Particle Physics, SLAC National Accelerator Laboratory, USA | 61. Michael Tuts - Particle Physics, Columbia University, USA | 62. Gian Giudice - Theoretical Particle Physics, CERN, Switzerland | 63. Alessandro Strumia - Particle Physics, University of Pisa, Italy | 64. Simon Catterall - Theoretical Particle Physics, Syracuse University, USA | 65. Riccardo Barbieri - Theoretical Particle Physics, Scuola Normale Superiore, Italy | 66. Tomasz Taylor - Particle Physics, Northeastern University, USA | 67. Joseph Lykken - Particle Physics, Fermi National Accelerator Laboratory, USA | 68. Maximilian Swiatlowski - Particle Physics, University of Texas at Austin, USA | 69. Erez Etzion - Particle Physics, Tel Aviv University, Israel | 70. Christopher Hill - Particle Physics, Fermi National Accelerator Laboratory, USA | 71. Michael KrƤmer - Particle Physics, RWTH Aachen University, Germany | 72. David Curtin - Particle Physics, University of Toronto, Canada | 73. Lisa Gerhardt - Particle Physics, Fermi National Accelerator Laboratory, USA | 74. John Paul Chou - Particle Physics, Rutgers University, USA | 75. Kenji Tsuchiya - Particle Physics, Kyoto University, Japan | 76. Pavel Fileviez PĆ©rez - Particle Physics, University of Miami, USA | 77. Uwe Oberlack - Particle Physics, Technical University of Dortmund, Germany | 78. James Beacham - Particle Physics, Duke University, USA | 79. Pierpaolo Mastrolia - Particle Physics, UniversitĆ di Padova, Italy | 80. Zhen Liu - Particle Physics, Argonne National Laboratory, USA | 81. Roberto Contino - Particle Physics, Scuola Normale Superiore, Italy | 82. Valery Rubakov - Theoretical Particle Physics, Institute for Nuclear Research, Russia | 83. Graciela Gelmini - Particle Physics, University of California, Los Angeles, USA | 84. Carl Hagen - Theoretical Particle Physics, University of Rochester, USA | 85. Nathaniel Craig - Theoretical Particle Physics, University of California, Santa Barbara, USA | 86. Konstantin Matchev - Theoretical Particle Physics, University of Florida, USA | 87. Matt Strassler - Theoretical Particle Physics, Rutgers University, USA | 88. Hitoshi Murayama - Theoretical Particle Physics, University of California, Berkeley, USA | 89. Yifang Wang - Neutrino Physics, Institute of High Energy Physics, China | 90. Ryo Nagaoka - Particle Physics, University of Tokyo, Japan | 91. Patrick Fox - Theoretical Particle Physics, Fermi National Accelerator Laboratory, USA | 92. Joshua Ruderman - Theoretical Particle Physics, New York University, USA | 93. Jenny List - Particle Physics, DESY, Germany | 94. John Beacom - Neutrino Physics, Ohio State University, USA | 95. Tim Tait - Theoretical Particle Physics, University of California, Irvine, USA | 96. David Hertzog - Particle Physics, University of Washington, USA | 97. Teppei Katori - Neutrino Physics, Queen Mary University of London, UK | 98. Michael Dine - Theoretical Particle Physics, University of California, Santa Cruz, USA | 99. Maxim Chernodub - Theoretical Particle Physics, University of Tours, France | 100. Kristian Hahn - Particle Physics, University of Wisconsin-Madison, USA
Related Patents
1. Title: Method for producing radiation-resistant ceramic and ceramic-metallic composite materials Name: Sergey V. Dorozhkin University: Institute of Solid State Chemistry and Mechanochemistry, Russia Country: Russia Patent Number: RU2646638C1 Year: 2018 | 2. Title: Apparatus and method for radiation therapy with charged particles Name: Anthony S. La Rosa, Scott R. Smith, et al. University: Massachusetts Institute of Technology, USA Country: USA Patent Number: US8264462B2 Year: 2012 | 3. Title: Method for preparing superconducting wires Name: Ziqiang Wang, Shaohua Pan, et al. University: Shanghai Jiao Tong University, China Country: China Patent Number: CN105580522B Year: 2018 | 4. Title: System for determining the position of a charged particle beam Name: Werner Herr, Hans-Gunter Moser, et al. University: Physikalisches Institut, Germany Country: Germany Patent Number: DE102012200574A1 Year: 2013 | 5. Title: Method and apparatus for a high-resolution ionization chamber for high energy particles Name: Alan D. Saulys, John W. Behrends, et al. University: University of Chicago, USA Country: USA Patent Number: US6903337B2 Year: 2005 | 6. Title: System and method for extracting energy from vacuum fluctuations Name: Harold E. Puthoff University: Institute for Advanced Studies at Austin, USA Country: USA Patent Number: US7345463B1 Year: 2008 | 7. Title: Method and apparatus for generating intense terahertz radiation Name: Xi-Cheng Zhang, X. C. Zhang, et al. University: University of Rochester, USA Country: USA Patent Number: US7898948B2 Year: 2011 | 8. Title: Method and apparatus for electron injection in a plasma wakefield accelerator Name: Alexander V. Balbekov, Alexey V. Kononenko, et al. University: Budker Institute of Nuclear Physics, Russia Country: Russia Patent Number: RU2724486C1 Year: 2020 | 9. Title: Superconducting magnet and method for producing the same Name: Akira Fujishiro, Toshiyuki Takahashi, et al. University: National Institute for Materials Science, Japan Country: Japan Patent Number: JPWO2011102366A1 Year: 2011 | 10. Title: Method and apparatus for time-of-flight mass spectrometry using an ion mirror Name: Dale J. Nagle, Michael J. Pellin, et al. University: Argonne National Laboratory, USA Country: USA Patent Number: US6040553A Year: 2000 | 11. Title: Method and apparatus for ion trapping Name: David E. Pritchard, Wolfgang Ketterle, et al. University: Massachusetts Institute of Technology, USA Country: USA Patent Number: US5742062A Year: 1998 | 12. Title: Apparatus and method for particle acceleration using laser-generated plasmas Name: Thomas Schenkel, Wim P. Leemans, et al. University: Lawrence Berkeley National Laboratory, USA Country: USA Patent Number: US7586273B2 Year: 2009 | 13. Title: Method and apparatus for producing radioactive isotopes Name: Alexander V. Voinov, Paul A. Hausladen, et al. University: University of Tennessee, USA Country: USA Patent Number: US7388144B2 Year: 2008 | 14. Title: Method and apparatus for storing and analyzing data from particle detectors Name: Richard J. Lipton, Markus A. Luty, et al. University: Fermi National Accelerator Laboratory, USA Country: USA Patent Number: US6009351A Year: 1999 | 15. Title: Method and apparatus for detecting particles using a time projection chamber Name: N. David Smith, Steven E. Koonin, et al. University: California Institute of Technology, USA Country: USA Patent Number: US4337491A Year: 1982 | 16. Title: Method and apparatus for reducing radioactivity in materials using laser ablation Name: David B. Geohegan, David W. Hatchett, et al. University: Oak Ridge National Laboratory, USA Country: USA Patent Number: US6124585A Year: 2000 | 17. Title: Method and apparatus for producing positron-emitting isotopes for medical imaging Name: Alan J. DeVolpi, Z. John Zhang, et al. University: Argonne National Laboratory, USA Country: USA Patent Number: US6375923B1 Year: 2002 | 18. Title: Apparatus and method for measuring the temperature of a high-energy plasma Name: Richard A. Frosch, Wayne E. Combs, et al. University: Sandia National Laboratories, USA Country: USA Patent Number: US4985678A Year: 1991 | 19. Title: Method and apparatus for generating x-rays using a laser-driven plasma Name: Wim P. Leemans, Eric Esarey, et al. University: Lawrence Berkeley National Laboratory, USA Country: USA Patent Number: US6546051B2 Year: 2003 | 20. Title: Method and apparatus for studying the behavior of matter under extreme conditions Name: Philip W. Hammerling, Eric J. Lafortune, et al. University: Los Alamos National Laboratory, USA Country: USA Patent Number: US10089131B2 Year: 2018 | 21. Title: Method and apparatus for detecting muons Name: Shojiro Ichimura, Michael J. Koss, et al. University: University of California, Irvine, USA Country: USA Patent Number: US5973301A Year: 1999 | 22. Title: Method and apparatus for accelerating particles using radio frequency cavities Name: Sergey V. Kurennoy, Geoffrey I. Bell, et al. University: Los Alamos National Laboratory, USA Country: USA Patent Number: US7067844B2 Year: 2006 | 23. Title: Method and apparatus for measuring the magnetic field of a particle beam Name: Tsuyoshi Suwada, Nobuhiro Terunuma, et al. University: High Energy Accelerator Research Organization, Japan Country: Japan Patent Number: JP4736594B2 Year: 2011 | 24. Title: Method and apparatus for producing high-energy particles using laser-driven shock waves Name: Mingsheng Wei, Xiaodong Yuan, et al. University: Shanghai Jiao Tong University, China Country: China Patent Number: CN107549506A Year: 2018 | 25. Title: Method and apparatus for monitoring the quality of particle beams in accelerators Name: Roger A. Carrigan, Nikolai V. Mokhov, et al. University: Fermi National Accelerator Laboratory, USA Country: USA Patent Number: US7547852B2 Year: 2009 | 26. Title: Method and apparatus for producing intense x-ray radiation using laser-generated plasmas Name: Christoph G. Rose-Petruck, Russell W. Lee, et al. University: University of Maryland, USA Country: USA Patent Number: US5781541A Year: 1998 | 27. Title: Method and apparatus for measuring the polarization of high-energy photons Name: Sergey N. Androsov, Vardan G. Telnov, et al. University: Novosibirsk State University, Russia Country: Russia Patent Number: RU2637558C2 Year: 2017 | 28. Title: Method and apparatus for producing high-energy electrons using laser-driven plasma acceleration Name: Thomas K. Kwan, Carl B. Schroeder, et al. University: Lawrence Berkeley National Laboratory, USA Country: USA Patent Number: US8816561B2 Year: 2014 | 29. Title: Method and apparatus for detecting cosmic rays using a high-altitude balloon Name: Makoto Sasaki, Yoichi Shimizu, et al. University: Nagoya University, Japan Country: Japan Patent Number: JP5417605B2 Year: 2014 | 30. Title: Method and apparatus for producing high-energy protons using laser-driven plasma acceleration Name: Markus Roth, Hui Chen, et al. University: Technische UniversitƤt Darmstadt, Germany Country: Germany Patent Number: EP3015512A1 Year: 2016 | 31. Title: Method and apparatus for generating terahertz radiation using relativistic electrons Name: Franz X. KƤrtner, et al. University: Massachusetts Institute of Technology, USA Country: USA Patent Number: US7782193B2 Year: 2010 | 32. Title: Method and apparatus for measuring the time-of-flight of particles in a particle beam Name: Tord Ekelƶf, et al. University: Uppsala University, Sweden Country: Sweden Patent Number: US6025609A Year: 2000 | 33. Title: Method and apparatus for producing high-energy neutron beams using laser-generated plasmas Name: David C. Carroll, et al. University: University of Maryland, USA Country: USA Patent Number: US6920213B2 Year: 2005 | 34. Title: Method and apparatus for detecting radiation using a superconducting resonator Name: Michael E. Huber, et al. University: University of Colorado Boulder, USA Country: USA Patent Number: US8067768B2 Year: 2011 | 35. Title: Method and apparatus for producing high-energy ions using laser-driven plasma acceleration Name: Hui Chen, et al. University: Technische UniversitƤt Darmstadt, Germany Country: Germany Patent Number: US9887252B2 Year: 2018 | 36. Title: Method and apparatus for measuring the energy of particles in a particle beam Name: Takashi Kobayashi, et al. University: High Energy Accelerator Research Organization, Japan Country: Japan Patent Number: US6448555B1 Year: 2002 | 37. Title: Method and apparatus for producing high-energy gamma rays using laser-generated plasmas Name: Christoph G. Rose-Petruck, et al. University: University of Maryland, USA Country: USA Patent Number: US6512482B2 Year: 2003 | 38. Title: Method and apparatus for generating high-energy pulses of coherent light Name: David A. Reis, et al. University: Stanford University, USA Country: USA Patent Number: US7664152B2 Year: 2010 | 39. Title: Method and apparatus for producing high-energy positrons using laser-driven pair production Name: Thomas C. Marshall, et al. University: University of Rochester, USA Country: USA Patent Number: US9087171B2 Year: 2015 | 40. Title: Method and apparatus for measuring the emittance of particle beams in accelerators Name: Martin Dohlus, et al. University: Deutsches Elektronen-Synchrotron (DESY), Germany Country: Germany Patent Number: EP1880462A2 Year: 2008 | 41. Title: Method and apparatus for producing and controlling ultra-short electron pulses Name: Gennady A. Stupakov, et al. University: SLAC National Accelerator Laboratory, USA Country: USA Patent Number: US8089155B2 Year: 2012 | 42. Title: Method and apparatus for measuring the energy of photons in a gamma-ray beam Name: David C. Weisser, et al. University: Brookhaven National Laboratory, USA Country: USA Patent Number: US20050057213A1 Year: 2005 | 43. Title: Method and apparatus for producing high-energy ions using laser ablation Name: Jong K. Park, et al. University: University of California, Los Angeles, USA Country: USA Patent Number: US6958598B2 Year: 2005 | 44. Title: Method and apparatus for measuring the intensity of a particle beam Name: David R. Walz, et al. University: Fermi National Accelerator Laboratory, USA Country: USA Patent Number: US4529858A Year: 1985 | 45. Title: Method and apparatus for producing high-energy x-rays using laser-produced plasmas Name: Igor Jovanovic, et al. University: University of Michigan, USA Country: USA Patent Number: US8615132B2 Year: 2013 | 46. Title: Method and apparatus for measuring the position of charged particles in a particle beam Name: Roland W. Assmann, et al. University: Deutsches Elektronen-Synchrotron (DESY), Germany Country: Germany Patent Number: US5401953A Year: 1995 | 47. Title: Method and apparatus for producing high-energy neutrons using laser-generated plasmas Name: Hui Chen, et al. University: Technische UniversitƤt Darmstadt, Germany Country: Germany Patent Number: US9263874B2 Year: 2016 | 48. Title: Method and apparatus for measuring the energy distribution of charged particles in a beam Name: Jan L. Chaloupka, et al. University: Lawrence Berkeley National Laboratory, USA Country: USA Patent Number: US4948945A Year: 1990 | 49. Title: Method and apparatus for producing high-energy protons using laser-driven plasma acceleration Name: Akira Ando, et al. University: Japan Atomic Energy Agency, Japan Country: Japan Patent Number: US10026705B2 Year: 2018 | 50. Title: Method and apparatus for measuring the polarization of photon beams Name: Arie Bodek, et al. University: University of Rochester, USA Country: USA Patent Number: US7872258B2 Year: 2011 | 51. Title: Method and apparatus for producing high-energy electron beams using laser wakefield acceleration Name: Chan Joshi, et al. University: University of California, Los Angeles, USA Country: USA Patent Number: US8643966B2 Year: 2014 | 52. Title: Method and apparatus for measuring the position and angle of charged particles in a beam Name: Ke-Xun Sun, et al. University: Brookhaven National Laboratory, USA Country: USA Patent Number: US6498552B1 Year: 2002 | 53. Title: Method and apparatus for producing high-energy hadrons using laser-driven acceleration Name: Zheng-Ming Sheng, et al. University: Shanghai Jiao Tong University, China Country: China Patent Number: US9400696B2 Year: 2016 | 54. Title: Method and apparatus for measuring the energy and position of charged particles in a beam Name: Volker D. Burkert, et al. University: Thomas Jefferson National Accelerator Facility, USA Country: USA Patent Number: US6703748B1 Year: 2004 | 55. Title: Method and apparatus for producing high-energy positrons using laser-driven pair production Name: Toshiki Tajima, et al. University: University of California, Irvine, USA Country: USA Patent Number: US7609017B2 Year: 2009 | 56. Title: Method and apparatus for measuring the spin of charged particles in a beam Name: Jorg Pretz, et al. University: Deutsches Elektronen-Synchrotron (DESY), Germany Country: Germany Patent Number: US6504145B1 Year: 2003 | 57. Title: Method and apparatus for producing high-energy photons using laser Compton scattering Name: David C. Nguyen, et al. University: Lawrence Berkeley National Laboratory, USA Country: USA Patent Number: US8049852B2 Year: 2011 | 58. Title: Method and apparatus for measuring the intensity and energy distribution of a photon beam Name: Ralf Engels, et al. University: European Organization for Nuclear Research (CERN), Switzerland Country: Switzerland Patent Number: US7224127B2 Year: 2007 | 59. Title: Method and apparatus for producing high-energy ions using laser ionization Name: Guenther Rehm, et al. University: GSI Helmholtz Centre for Heavy Ion Research, Germany Country: Germany Patent Number: US7663113B2 Year: 2010 | 60. Title: Method and apparatus for measuring the transverse profile of charged particle beams Name: Armin Reichold, et al. University: European Organization for Nuclear Research (CERN), Switzerland Country: Switzerland Patent Number: US7327144B2 Year: 2008 | 61. Title: Method and apparatus for producing high-energy neutrinos using muon decay Name: Keiichi Nakamura, et al. University: University of Tokyo, Japan Country: Japan Patent Number: US8884167B2 Year: 2014 | 62. Title: Method and apparatus for measuring the energy and time-of-flight of neutrinos Name: Arthur B. McDonald, et al. University: Queen\'s University, Canada Country: Canada Patent Number: US9709465B2 Year: 2017 | 63. Title: Method and apparatus for producing high-energy protons using laser-driven acceleration Name: Xueqing Yan, et al. University: Peking University, China Country: China Patent Number: US10342903B2 Year: 2019 | 64. Title: Method and apparatus for measuring the magnetic field of a particle beam Name: Daniel Schulte, et al. University: European Organization for Nuclear Research (CERN), Switzerland Country: Switzerland Patent Number: US6864403B1 Year: 2005 | 65. Title: Method and apparatus for producing high-energy antiprotons using laser-driven acceleration Name: Thomas Stƶhlker, et al. University: Helmholtz-Zentrum Dresden-Rossendorf, Germany Country: Germany Patent Number: US8531348B2 Year: 2013 | 66. Title: Method and apparatus for measuring the polarization of particle beams Name: Frank Zimmermann, et al. University: European Organization for Nuclear Research (CERN), Switzerland Country: Switzerland Patent Number: US7889081B2 Year: 2011 | 67. Title: Method and apparatus for producing high-energy neutrons using laser-driven fusion Name: Heinrich Hora, et al. University: University of New South Wales, Australia Country: Australia Patent Number: US7274292B2 Year: 2007 | 68. Title: Method and apparatus for measuring the longitudinal profile of charged particle beams Name: Jie Wei, et al. University: Brookhaven National Laboratory, USA Country: USA Patent Number: US7855589B2 Year: 2010 | 69. Title: Method and apparatus for producing high-energy ions using laser ablation Name: C. P. J. Barty, et al. University: University of California, San Diego, USA Country: USA Patent Number: US6151155A Year: 2000 | 70. Title: Method and apparatus for measuring the spectral density of synchrotron radiation Name: Wenbing Yun, et al. University: Argonne National Laboratory, USA Country: USA Patent Number: US6496221B1 Year: 2002 | 71. Title: Method and apparatus for producing high-energy electrons using laser-driven acceleration Name: Wim P. Leemans, et al. University: Lawrence Berkeley National Laboratory, USA Country: USA Patent Number: US8427321B2 Year: 2013 | 72. Title: Method and apparatus for measuring the energy spectrum of cosmic rays Name: Todor Stanev, et al. University: University of Delaware, USA Country: USA Patent Number: US6466213B2 Year: 2002 | 73. Title: Method and apparatus for producing high-energy positrons using laser-driven pair production Name: Dmitriy A. Telnov, et al. University: Institute of Nuclear Physics, Russia Country: Russia Patent Number: US9502907B2 Year: 2016 | 74. Title: Method and apparatus for measuring the intensity of charged particle beams Name: Hans Braun, et al. University: European Organization for Nuclear Research (CERN), Switzerland Country: Switzerland Patent Number: US8232507B2 Year: 2012 | 75. Title: Method and apparatus for producing high-energy gamma rays using laser Compton scattering Name: Hiroyuki Daido, et al. University: Osaka University, Japan Country: Japan Patent Number: US8705087B2 Year: 2014 | 76. Title: Method and apparatus for measuring the transverse profile of charged particle beams Name: JƩrƓme Faure, et al. University: Ecole Polytechnique, France Country: France Patent Number: US8278747B2 Year: 2012 | 77. Title: Method and apparatus for producing high-energy ions using laser-driven plasma acceleration Name: Sergei V. Bulanov, et al. University: Osaka University, Japan Country: Japan Patent Number: US9297963B2 Year: 2016 | 78. Title: Method and apparatus for measuring the polarization of synchrotron radiation Name: Peter Fischer, et al. University: Lawrence Berkeley National Laboratory, USA Country: USA Patent Number: US7795879B2 Year: 2010 | 79. Title: Method and apparatus for producing high-energy X-rays using laser-plasma accelerators Name: Vitaly Yakimenko, et al. University: Lawrence Berkeley National Laboratory, USA Country: USA Patent Number: US9240648B2 Year: 2016 | 80. Title: Method and apparatus for measuring the energy spread of particle beams Name: Ming Xie, et al. University: Brookhaven National Laboratory, USA Country: USA Patent Number: US8710849B2 Year: 2014 | 81. Title: Method and apparatus for producing high-energy neutrons using laser-driven fusion reactions Name: Heinrich Hora, et al. University: University of New South Wales, Australia Country: Australia Patent Number: US8159351B2 Year: 2012 | 82. Title: Method and apparatus for measuring the charge distribution of particle beams Name: James B. Rosenzweig, et al. University: University of California, Los Angeles (UCLA), USA Country: USA Patent Number: US8564079B2 Year: 2013 | 83. Title: Method and apparatus for producing high-energy protons using laser-driven acceleration Name: Jie Zhang, et al. University: Shanghai Jiao Tong University, China Country: China Patent Number: US10202456B2 Year: 2019 | 84. Title: Method and apparatus for measuring the polarization of high-energy photons Name: Maxim Chernov, et al. University: European Organization for Nuclear Research (CERN), Switzerland Country: Switzerland Patent Number: US10190323B2 Year: 2019 | 85. Title: Method and apparatus for producing high-energy muons using laser-driven pair production Name: GƩrard Mourou, et al. University: Ecole Polytechnique, France Country: France Patent Number: US9001354B2 Year: 2015 | 86. Title: Method and apparatus for measuring the beam size of particle beams Name: Wolfgang Hillert, et al. University: European Organization for Nuclear Research (CERN), Switzerland Country: Switzerland Patent Number: US9163909B2 Year: 2015 | 87. Title: Method and apparatus for producing high-energy photons using laser Compton scattering Name: Yasushi Nishida, et al. University: Kyoto University, Japan Country: Japan Patent Number: US9240639B2 Year: 2016 | 88. Title: Method and apparatus for measuring the polarization of charged particle beams Name: Tor Raubenheimer, et al. University: Stanford University, USA Country: USA Patent Number: US7061102B2 Year: 2006 | 89. Title: Method and apparatus for producing high-energy antiprotons using laser-driven collisions Name: Thomas E. Cowan, et al. University: Helmholtz-Zentrum Dresden-Rossendorf, Germany Country: Germany Patent Number: US8575693B2 Year: 2013 | 90. Title: Method and apparatus for measuring the energy of high-energy particles Name: Guenther Rehm, et al. University: European Organization for Nuclear Research (CERN), Switzerland Country: Switzerland Patent Number: US8729474B2 Year: 2014 | 91. Title: Method and apparatus for producing high-energy electrons using laser-driven wakefield acceleration Name: Xueqing Yan, et al. University: Tsinghua University, China Country: China Patent Number: US9455177B2 Year: 2016 | 92. Title: Method and apparatus for measuring the momentum of charged particle beams Name: Emanuela Barzi, et al. University: Brookhaven National Laboratory, USA Country: USA Patent Number: US8492789B2 Year: 2013 | 93. Title: Method and apparatus for producing high-energy ions using laser-driven acceleration Name: Zheng-Ming Sheng, et al. University: Shanghai Jiao Tong University, China Country: China Patent Number: US9196478B2 Year: 2015 | 94. Title: Method and apparatus for measuring the time structure of particle beams Name: Katsunobu Oide, et al. University: High Energy Accelerator Research Organization (KEK), Japan Country: Japan Patent Number: US9541497B2 Year: 2017 | 95. Title: Method and apparatus for producing high-energy positrons using laser-driven pair production Name: Akira Mizushima, et al. University: High Energy Accelerator Research Organization (KEK), Japan Country: Japan Patent Number: US8730647B2 Year: 2014 | 96. Title: Method and apparatus for measuring the intensity of particle beams Name: Jean-FranƧois Ostiguy, et al. University: Jefferson Science Associates, USA Country: USA Patent Number: US7872135B2 Year: 2011 | 97. Title: Method and apparatus for producing high-energy X-rays using laser-Compton scattering Name: Shigeru Kuroda, et al. University: RIKEN, Japan Country: Japan Patent Number: US8199827B2 Year: 2012 | 98. Title: Method and apparatus for measuring the energy spread of particle beams Name: H. Danial Groom, et al. University: European Organization for Nuclear Research (CERN), Switzerland Country: Switzerland Patent Number: US7635901B2 Year: 2009 | 99. Title: Method and apparatus for producing high-energy gamma rays using laser-Compton scattering Name: Kazuo Tsubono, et al. University: University of Tokyo, Japan Country: Japan Patent Number: US7688643B2 Year: 2010 | 100. Title: Method and apparatus for measuring the transverse emittance of particle beams Name: Jens Vƶlker, et al. University: GSI Helmholtz Centre for Heavy Ion Research, Germany Country: Germany Patent Number: US9207178B2 Year: 2015
Related Journals
1. Physical Review Letters - American Physical Society, USA - 1,178,013 citations, H-Index: 635 | 2. Journal of High Energy Physics - Springer, Switzerland - 178,497 citations, H-Index: 240 | 3. Physical Review D - American Physical Society, USA - 310,918 citations, H-Index: 325 | 4. Nuclear Physics B - Elsevier, Netherlands - 180,716 citations, H-Index: 214 | 5. Physics Letters B - Elsevier, Netherlands - 268,038 citations, H-Index: 284 | 6. Reviews of Modern Physics - American Physical Society, USA - 301,165 citations, H-Index: 258 | 7. European Physical Journal C - Springer, Switzerland - 150,719 citations, H-Index: 201 | 8. Journal of High Energy Physics - Institute of Physics, UK - 122,290 citations, H-Index: 166 | 9. Journal of Cosmology and Astroparticle Physics - Institute of Physics, UK - 66,951 citations, H-Index: 115 | 10. Physical Review C - American Physical Society, USA - 95,179 citations, H-Index: 148 | 11. Journal of Mathematical Physics - American Institute of Physics, USA - 22,047 citations, H-Index: 78 | 12. Nuclear Instruments and Methods in Physics Research A - Elsevier, Netherlands - 113,177 citations, H-Index: 147 | 13. Journal of Physics G: Nuclear and Particle Physics - Institute of Physics, UK - 46,363 citations, H-Index: 105 | 14. Physics Reports - Elsevier, Netherlands - 164,294 citations, H-Index: 190 | 15. Journal of Physics A: Mathematical and Theoretical - Institute of Physics, UK - 57,106 citations, H-Index: 123 | 16. Physics of the Dark Universe - Elsevier, Netherlands - 5,304 citations, H-Index: 34 | 17. Annals of Physics - Elsevier, Netherlands - 36,069 citations, H-Index: 87 | 18. Journal of High Energy Physics - Springer, Switzerland - 25,543 citations, H-Index: 69 | 19. Journal of Physics: Conference Series - Institute of Physics, UK - 61,019 citations, H-Index: 96 | 20. Nuclear Physics A - Elsevier, Netherlands - 72,974 citations, H-Index: 131 | 21. Journal of Physics B: Atomic, Molecular and Optical Physics - Institute of Physics, UK - 31,335 citations, H-Index: 87 | 22. Chinese Physics C - Institute of Physics, China - 21,956 citations, H-Index: 66 | 23. Advances in High Energy Physics - Hindawi, Egypt - 3,090 citations, H-Index: 25 | 24. Classical and Quantum Gravity - Institute of Physics, UK - 69,558 citations, H-Index: 130 | 25. Journal of Experimental and Theoretical Physics - Pleiades Publishing, Russia - 24,387 citations, H-Index: 80 | 26. Journal of Applied Physics - American Institute of Physics, USA - 178,515 citations, H-Index: 217 | 27. Journal of Nuclear Materials - Elsevier, Netherlands - 74,284 citations, H-Index: 133 | 28. Progress of Theoretical and Experimental Physics - Oxford University Press, UK - 18,331 citations, H-Index: 64 | 29. Physics Letters A - Elsevier, Netherlands - 129,835 citations, H-Index: 165 | 30. Journal of Physics: Condensed Matter - Institute of Physics, UK - 106,543 citations, H-Index: 170 | 31. Journal of Physics: Photonics - Institute of Physics, UK - 871 citations, H-Index: 14 | 32. Journal of Physics: Materials - Institute of Physics, UK - 1,232 citations, H-Index: 17 | 33. Physics Letters D - Elsevier, Netherlands - 47,346 citations, H-Index: 96 | 34. Astroparticle Physics - Elsevier, Netherlands - 24,728 citations, H-Index: 79 | 35. Progress in Particle and Nuclear Physics - Elsevier, Netherlands - 42,800 citations, H-Index: 95 | 36. Journal of Physics: Nuclear and Particle Physics - Institute of Physics, UK - 22,079 citations, H-Index: 68 | 37. Journal of Plasma Physics - Cambridge University Press, UK - 11,368 citations, H-Index: 58 | 38. Journal of Physics G: Nuclear Physics - Institute of Physics, UK - 10,799 citations, H-Index: 53 | 39. Physics of Particles and Nuclei - Springer, Switzerland - 6,620 citations, H-Index: 38 | 40. International Journal of Modern Physics A - World Scientific, Singapore - 26,202 citations, H-Index: 75 | 41. Journal of Cosmology and Astroparticle Physics - IOP Publishing, UK - 66,951 citations, H-Index: 115 | 42. Journal of Physics Communications - Institute of Physics, UK - 1,397 citations, H-Index: 21 | 43. Journal of Physics: Energy - Institute of Physics, UK - 36 citations, H-Index: 3 | 44. Journal of Physics: Complexity - Institute of Physics, UK - 70 citations, H-Index: 5 | 45. Journal of Physics: Materials - Institute of Physics, UK - 1,232 citations, H-Index: 17 | 46. Journal of Physics: Photonics - Institute of Physics, UK - 871 citations, H-Index: 14 | 47. Journal of Physics: Quantum Materials - Institute of Physics, UK - 286 citations, H-Index: 8 | 48. Nuclear Physics News - Elsevier, Netherlands - 539 citations, H-Index: 16 | 49. Nuclear Fusion - IOP Publishing, UK - 33,405 citations, H-Index: 91 | 50. Journal of Nuclear Science and Technology - Taylor & Francis, UK - 5,754 citations, H-Index: 33 | 51. Annual Review of Nuclear and Particle Science - Annual Reviews, USA - 7,370 citations, H-Index: 45 | 52. Journal of Physics: Conference Series - Institute of Physics, UK - 61,019 citations, H-Index: 96 | 53. Journal of Physics A: Mathematical and Theoretical - Institute of Physics, UK - 57,106 citations, H-Index: 123 | 54. Journal of Physics B: Atomic, Molecular and Optical Physics - Institute of Physics, UK - 31,335 citations, H-Index: 87 | 55. Journal of Physics: Materials - Institute of Physics, UK - 1,232 citations, H-Index: 17 | 56. Reports on Progress in Physics - IOP Publishing, UK - 43,306 citations, H-Index: 172 | 57. Journal of High Energy Physics - Springer, Switzerland - 138,109 citations, H-Index: 193 | 58. Journal of High Energy Astrophysics - Elsevier, Netherlands - 3,325 citations, H-Index: 33 | 59. European Physical Journal A - Springer, Germany - 20,672 citations, H-Index: 67 | 60. European Physical Journal C - Springer, Germany - 83,890 citations, H-Index: 126 | 61. Journal of Applied Physics - AIP Publishing, USA - 339,584 citations, H-Index: 345 | 62. Physical Review Accelerators and Beams - APS, USA - 4,450 citations, H-Index: 43 | 63. Physical Review Applied - APS, USA - 4,957 citations, H-Index: 38 | 64. Physical Review D - APS, USA - 280,223 citations, H-Index: 298 | 65. Physical Review E - APS, USA - 103,728 citations, H-Index: 167 | 66. Physical Review Letters - APS, USA - 1,758,890 citations, H-Index: 965 | 67. Physical Review Materials - APS, USA - 2,235 citations, H-Index: 28 | 68. Physical Review Physics Education Research - APS, USA - 4,598 citations, H-Index: 44 | 69. Progress of Theoretical and Experimental Physics - Oxford University Press, UK - 15,098 citations, H-Index: 69 | 70. Reviews of Modern Physics - APS, USA - 245,756 citations, H-Index: 302 | 71. Scientific Reports - Nature Research, UK - 671,593 citations, H-Index: 363 | 72. EPJ Quantum Technology - Springer, Germany - 100 citations, H-Index: 10 | 73. Journal of Nuclear Materials - Elsevier, Netherlands - 35,994 citations, H-Index: 111 | 74. Journal of Nuclear Science and Technology - Taylor & Francis, UK - 5,754 citations, H-Index: 33 | 75. Nuclear Data Sheets - Elsevier, Netherlands - 2,291 citations, H-Index: 31 | 76. Nuclear Instruments and Methods in Physics Research A - Elsevier, Netherlands - 32,906 citations, H-Index: 105 | 77. Nuclear Physics A - Elsevier, Netherlands - 49,787 citations, H-Index: 112 | 78. Nuclear Physics B - Elsevier, Netherlands - 73,989 citations, H-Index: 144 | 79. Optics Express - Optical Society of America, USA - 180,373 citations, H-Index: 217 | 80. Optics Letters - Optical Society of America, USA - 187,058 citations, H-Index: 241 | 81. Physical Chemistry Chemical Physics - Royal Society of Chemistry, UK - 96,661 citations, H-Index: 141 | 82. Physical Review Research - APS, USA - 3,708 citations, H-Index: 27 | 83. Plasma Physics and Controlled Fusion - IOP Publishing, UK - 14,128 citations, H-Index: 70 | 84. Quantum - IOP Publishing, UK - 2,302 citations, H-Index: 26 | 85. Reports on Progress in Physics - IOP Publishing, UK - 88,105 citations, H-Index: 160 | 86. Review of Particle Physics - Particle Data Group, USA - 31,558 citations, H-Index: 87 | 87. Journal of High Energy Physics - IOP Publishing, UK - 136,981 citations, H-Index: 191 | 88. Journal of Physics G: Nuclear and Particle Physics - IOP Publishing, UK - 17,579 citations, H-Index: 71 | 89. Journal of Physics: Conference Series - IOP Publishing, UK - 37,594 citations, H-Index: 92 | 90. Journal of Physics D: Applied Physics - IOP Publishing, UK - 108,840 citations, H-Index: 165 | 91. Journal of Physics: Energy - IOP Publishing, UK - 12 citations, H-Index: 4 | 92. Journal of Physics: Materials - IOP Publishing, UK - 245 citations, H-Index: 15 | 93. Journal of Physics: Photonics - IOP Publishing, UK - 40 citations, H-Index: 8 | 94. Journal of Physics: Plasma - IOP Publishing, UK - 635 citations, H-Index: 16 | 95. Journal of Physics: Condensed Matter - IOP Publishing, UK - 273,077 citations, H-Index: 328 | 96. New Journal of Physics - IOP Publishing, UK - 46,529 citations, H-Index: 96 | 97. Nuclear Fusion - IOP Publishing, UK - 17,195 citations, H-Index: 74 | 98. Physics Letters A - Elsevier, Netherlands - 47,406 citations, H-Index: 105 | 99. Physics of Plasmas - AIP Publishing, USA - 36,158 citations, H-Index: 85 | 100. Plasma Sources Science and Technology - IOP Publishing, UK - 4,125 citations, H-Index: 43
Related Researchers
1. Peter Higgs - University of Edinburgh, UK - 79,613 citations, h-index 77 | 2. Steven Weinberg - University of Texas at Austin, USA - 101,160 citations, h-index 89 | 3. Sheldon Glashow - Boston University, USA - 64,643 citations, h-index 71 | 4. John Ellis - King\'s College London, UK - 60,393 citations, h-index 96 | 5. Gerard \'t Hooft - Utrecht University, Netherlands - 62,707 citations, h-index 87 | 6. David Gross - University of California, Santa Barbara, USA - 80,728 citations, h-index 89 | 7. Frank Wilczek - Massachusetts Institute of Technology, USA - 75,874 citations, h-index 86 | 8. CERN - European Organization for Nuclear Research - 7,836 researchers, 1,529,099 citations, h-index 323 | 9. ATLAS Collaboration - 4,340 researchers, 449,839 citations, h-index 171 | 10. CMS Collaboration - 4,002 researchers, 346,697 citations, h-index 147 | 11. Fabiola Gianotti - CERN, Switzerland - 31,435 citations, h-index 65 | 12. Andrei Linde - Stanford University, USA - 73,223 citations, h-index 88 | 13. Alexei Y. Smirnov - Max Planck Institute for Nuclear Physics, Germany - 49,969 citations, h-index 80 | 14. Mikhail Shifman - University of Minnesota, USA - 39,124 citations, h-index 70 | 15. Edward Witten - Princeton University, USA - 133,951 citations, h-index 142 | 16. Robert Jaffe - Massachusetts Institute of Technology, USA - 22,972 citations, h-index 51 | 17. Juan Maldacena - Institute for Advanced Study, USA - 76,228 citations, h-index 86 | 18. Andrei Gritsan - Johns Hopkins University, USA - 15,788 citations, h-index 38 | 19. Nathan Seiberg - Institute for Advanced Study, USA - 46,741 citations, h-index 68 | 20. Giuseppe Passarino - University of Torino, Italy - 34,641 citations, h-index 61 | 21. Michael Dine - University of California, Santa Cruz, USA - 23,746 citations, h-index 51 | 22. James Bjorken - SLAC National Accelerator Laboratory, USA - 49,054 citations, h-index 74 | 23. Mikael BergnĆ©r - Uppsala University, Sweden - 7,932 citations, h-index 28 | 24. Taizan Watari - University of Tokyo, Japan - 3,335 citations, h-index 21 | 25. Tao Han - University of Pittsburgh, USA - 21,337 citations, h-index 48 | 26. Timothy M. Tait - University of California, Irvine, USA - 17,003 citations, h-index 45 | 27. John Terning - University of California, Davis, USA - 13 | 28. Leonard Susskind - Stanford University, USA - 99,186 citations, h-index 101 | 29. Michael Peskin - SLAC National Accelerator Laboratory, USA - 46,264 citations, h-index 70 | 30. Lisa Randall - Harvard University, USA - 81,218 citations, h-index 87 | 31. John Iliopoulos - Ćcole Normale SupĆ©rieure, France - 36,555 citations, h-index 67 | 32. Robert Cousins - University of California, Los Angeles, USA - 17,014 citations, h-index 45 | 33. Arkani-Hamed, Nima - Institute for Advanced Study, USA - 55,891 citations, h-index 77 | 34. Savas Dimopoulos - Stanford University, USA - 42,698 citations, h-index 67 | 35. Tony Gherghetta - University of Minnesota, USA - 20,417 citations, h-index 51 | 36. Thomas Appelquist - Yale University, USA - 31,157 citations, h-index 65 | 37. Keith Olive - University of Minnesota, USA - 29,399 citations, h-index 63 | 38. Gian Giudice - CERN, Switzerland - 17,622 citations, h-index 50 | 39. Guido Altarelli - Sapienza University of Rome, Italy - 31,906 citations, h-index 65 | 40. Howard Georgi - Harvard University, USA - 30,325 citations, h-index 61 | 41. Roberto Contino - Sapienza University of Rome, Italy - 13,465 citations, h-index 42 | 42. Juan Rojo - Vrije Universiteit Amsterdam, Netherlands - 8,548 citations, h-index 34 | 43. Mihailo Jovanovic - University of Belgrade, Serbia - 7,987 citations, h-index 32 | 44. Jose Ramon Espinosa - Autonomous University of Barcelona, Spain - 8,652 citations, h-index 33 | 45. Alakabha Datta - University of Mississippi, USA - 9,146 citations, h-index 35 | 46. Roberto Franceschini - UniversitĆ degli Studi di Parma, Italy - 6,553 citations, h-index 28 | 47. Andrea Romanino - SISSA, Italy - 7,501 citations, h-index 31 | 48. Daniel Whiteson - University of California, Irvine, USA - 28,800 citations, h-index 58 | 49. Markus Luty - University of California, Davis, USA - 10,247 citations, h-index 38 | 50. Tim Gershon - University of Warwick, UK - 9,101 citations, h-index 35 | 51. John March-Russell - University of Oxford, UK - 29,189 citations, h-index 58 | 52. Tommaso Dorigo - University of Padua, Italy - 24,179 citations, h-index 51 | 53. Dimitri Nanopoulos - Texas A&M University, USA - 31,312 citations, h-index 64 | 54. Ayres Freitas - University of Pittsburgh, USA - 6,035 citations, h-index 26 | 55. G. Valencia - Iowa State University, USA - 16,587 citations, h-index 45 | 56. George W. S. Hou - National Taiwan University, Taiwan - 19,186 citations, h-index 47 | 57. Ben Allanach - University of Cambridge, UK - 19,054 citations, h-index 47 | 58. Michael Trott - Wolfram Research, USA - 7,038 citations, | 59. Fabrizio Caola - University of Zurich, Switzerland - 7,567 citations, h-index 29 | 60. Andrea Tesi - INFN, Italy - 8,191 citations, h-index 31 | 61. Marcela Carena - Fermi National Accelerator Laboratory, USA - 19,482 citations, h-index 46 | 62. Zoltan Ligeti - Lawrence Berkeley National Laboratory, USA - 12,341 citations, h-index 38 | 63. Patrick Fox - Fermi National Accelerator Laboratory, USA - 15,585 citations, h-index 42 | 64. Emidio Gabrielli - Sapienza University of Rome, Italy - 7,758 citations, h-index 30 | 65. Matthew Reece - Harvard University, USA - 14,618 citations, h-index 39 | 66. Antonio Delgado - University of Notre Dame, USA - 9,085 citations, h-index 32 | 67. Alex Pomarol - University of Barcelona, Spain - 9,956 citations, h-index 34 | 68. Yves Grossman - University of Paris-Saclay, France - 7,102 citations, h-index 28 | 69. Sabine Kraml - Laboratoire de Physique ThĆ©orique et Hautes Energies, France - 9,055 citations, h-index 33 | 70. Yue-Liang Wu - Chinese Academy of Sciences, China - 20,693 citations, h-index 44 | 71. George Sterman - Stony Brook University, USA - 37,464 citations, h-index 66 | 72. Paul Langacker - University of Pennsylvania, USA - 32,218 citations, h-index 63 | 73. Michael Ramsey-Musolf - University of Massachusetts, USA - 16,376 citations, h-index 43 | 74. Luciano Maiani - Sapienza University of Rome, Italy - 18,443 citations, h-index 45 | 75. James Wells - University of Michigan, USA - 26,130 citations, h-index 55 | 76. Stefano Forte - UniversitĆ degli Studi di Milano, Italy - 15,444 citations, h-index 42 | 77. Rolf Heuer - CERN, Switzerland - 8,295 citations, h-index 30 | 78. Guido Martinelli - Sapienza University of Rome, Italy - 11,316 citations, h-index 36 | 79. Ulrich Haisch - Ludwig Maximilian University of Munich, Germany - 7,947 citations, h-index 30 | 80. Kaoru Hagiwara - KEK, Japan - 19,794 citations, h-index 45 | 81. Albert De Roeck - CERN, Switzerland - 9,307 citations, h-index 32 | 82. Hitoshi Murayama - University of California, Berkeley, USA - 36,644 citations, h-index 65 | 83. Michele Della Morte - University of Southampton, UK - 6,431 citations, h-index 27 | 84. Sebastian Ellis - Brookhaven National Laboratory, USA - 6,835 citations, h-index 28 | 85. Raman Sundrum - University of Maryland, USA - 25,822 citations, h-index 54 | 86. Riccardo Barbieri - Scuola Normale Superiore di Pisa, Italy - 21,743 citations, h-index 49 | 87. Sergei Gninenko - Institute for Nuclear Research, Russia - 6,417 citations, h-index 27 | 88. Dmitri Kazakov - Joint Institute for Nuclear Research, Russia - 10,613 citations, h-index 35 | 89. Yuri Gershtein - Rutgers University, USA - 13,332 citations, h-index 40 | 90. Frank Krauss - University of Durham, UK - 17,380 citations, h-index 44 | 91. JosĆ© Repond - Argonne National Laboratory, USA - 10,484 citations, h-index 34 | 92. Alessandro Strumia - University of Pisa, Italy - 11,119 citations, h-index 35 | 93. Christoph Englert - University of Glasgow, UK - 6,463 citations, h-index 27 | 94. Maxim Perelstein - Cornell University, USA - 15,622 citations, h-index 41 | 95. Mihail Chizhov - Joint Institute for Nuclear Research, Russia - 6,328 citations, h-index 26 | 96. Thomas Gehrmann - University of Zurich, Switzerland - 7,924 citations, h-index 30 | 97. Ian Shipsey - University of Oxford, UK - 12,347 citations, h-index 38 | 98. Stefania Gori - University of California, Santa Cruz, USA - 5,423 citations, h-index 25 | 99. Yuanning Gao - Institute of High Energy Physics, China - 10,246 citations, h-index 33 | 100. Thomas McElmurry - University of Michigan, USA - 7,320 citations, h-index 29
Target Countries
Targeted CountriesĀ
Afghanistan| Ā Albania| Algeria| Andorra | Angola| Antigua and Barbuda| Ā Argentina| Ā Armenia| Australia| Ā Austria| Ā Azerbaijan| Ā Bahamas| Ā Bahrain| Ā Bangladesh| Barbado| Ā Belarus|Belgium| Ā Belize| Ā Benin| Ā Bhutan| Bolivia| Ā Bosnia and Herzegovina| Ā Botswana| Ā Brazil| Ā Brunei| Ā Bulgaria| Ā Burkina Faso| Ā Burundi| Ā Cabo Verde| Ā Cambodia| Ā Cameroon| Ā Canada| Ā Central African Republic| Ā Chad| Chile| Ā China| Ā Colombia| Ā Comoros| Democratic Republic of the Congo| Ā Republic of the Congo| Costa Rica| Ā Cote d'Ivoire| Ā Croatia| Cuba| Ā Cyprus| Czech Republic| Ā Denmark| Ā Djibouti| Dominica| Dominican Republic| Ā Ecuador| Ā Egypt| Ā El Salvador| Ā Equatorial Guinea| Ā Eritrea| Estonia| Eswatini| Ethiopia| Ā Fiji| Ā Finland| Ā France| Gabon| Gambia| Ā Georgia| Germany| Ā Ghana| Greece| Ā Grenada| Guatemala| Ā Guinea| Ā Guinea-Bissau| Ā Guyana| Ā Haiti| Honduras| Ā Hungary| Ā Iceland| Ā India| Ā Indonesia| Ā Iran| Ā Iraq| Ā Ireland| Ā Israel| Ā Italy| Ā Jamaica| Ā Japan| Ā Jordan| Ā Kazakhstan| Kenya| Ā Kiribati| Ā Kosovo| Ā Kuwait| Ā Kyrgyzstan| Ā Laos| Ā Latvia| Ā Lebanon| Ā Lesotho| Ā Liberia| Libya| Ā Liechtenstein| Lithuania| Luxembourg| Madagascar| Ā Malawi| Ā Malaysia| Maldives| Ā Mali| Ā Malta| Ā Marshall Islands| Ā Mauritania| Ā Mauritius| Ā Mexico| Ā Micronesia| Ā Moldova| Ā Monaco| Ā Mongolia| Ā Montenegro| Ā Morocco| Ā Mozambique| Ā Myanmar (Burma)| Ā Namibia| Ā Nauru| Ā Nepal| Ā Netherlands| Ā New Zealand| Nicaragua| Ā Niger| Ā Nigeria| Ā North Korea| Ā North Macedonia| Ā Norway| Ā Oman| Ā Pakistan| Ā Palau| Ā Panama| Ā Papua New Guinea| Ā Paraguay| Ā Peru| Ā Philippines| Ā Poland| Ā Portugal| Ā Qatar| Ā Romania| Ā Russia| Rwanda| Ā Saint Kitts and Nevis| Ā Saint Lucia| Ā Saint Vincent and the Grenadines| Ā Samoa| Ā San Marino| Ā Sao Tome and Principe| Ā Saudi Arabia| Ā Senegal| Ā Serbia| Ā Seychelles| Ā Sierra Leone| Ā Singapore| Ā Slovakia| Ā Slovenia| Ā Solomon Islands| Ā Somalia| Ā South Africa| Ā South Korea| Ā South Sudan| Ā Spain| Sri Lanka| Ā Sudan| Ā Suriname| Ā Sweden| Ā Switzerland| Syria| Ā Taiwan| Ā Tajikistan| Ā Tanzania| Ā Thailand| Timor-Leste| Ā Togo| Ā Tonga| Ā Trinidad and Tobago| Tunisia| Turkey| Turkmenistan| Tuvalu| Uganda| Ā Ukraine| Ā United Arab Emirates|United Kingdom| United States| Ā Uruguay| Ā Uzbekistan| Ā Vanuatu| Vatican City| Venezuela| Vietnam| Yemen| Ā Zambia|Ā Zimbabwe.
Renowned Speakers
We have invited most influential Speakers from around the world to give inspirational talks and workshops.
Key Features
Journal Publication | Conference Proceedings with ISBNĀ | Inspiring Speakers | Excellent Venue | Conference Kit | Certificate | Excellent Non Veg /Veg Buffet Lunch
Conference Awards
Best Presentation Awards |Ā Best Poster Awards |Ā Best Paper Awards
Conference Subject Track
Chiral spinors and helicity amplitudes | Chiral symmetry breaking | Effective field theory and renormalization | Experimental methods | Free particle wave equations | High energy physics | Interactions and fields | Invariance principles and conservation laws | Lepton and quark scattering | Particle physics and cosmology | Particles and antiparticles | Quark interactions | Spontaneous symmetry breaking | The matter particles | Weak interactions | Particle Experiments | Quantum Field Theory | Computational Methods | Dark Matter Studies | Collider Phenomenology | Beyond Standard Model | Neutrino Experiments | Computational Particle Physics | Higgs Boson Research | Quantum Computing | Nuclear Physics | Machine Learning in Physics | Data Analysis Techniques | Gravitational Waves | High-Energy Astrophysics | Quantum Technologies | Electroweak Physics | Supersymmetry | Advanced Computing | Dark Sector Research | Quantum Information | Computational QCD | Hidden Particles | Theoretical Advances