Song He | High energy physics | Best Researcher Award

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Mr. Song He | High energy physics | Best Researcher Award

Ph.D. student at Huazhong University of Science and Technology | China

Song He is currently a Ph.D. student at Huazhong University of Science and Technology (HUST), specializing in novel radiation detectors and imaging techniques. He has contributed extensively to high-impact journals in the fields of material science and electronics, with innovative research in scintillator development. His work has led to groundbreaking discoveries in enhancing X-ray imaging and fast neutron imaging resolution.

👨‍🎓Profile

Scopus 

ORCID

Early Academic Pursuits 🎓

Song He’s academic journey began with a Bachelor of Engineering in Materials Science and Engineering from China University of Mining and Technology (2015-2019). He continued with a Master of Engineering in Materials and Physics from the same university (2019-2022). Currently, he is pursuing a Ph.D. in Electronic Science and Technology at HUST since 2022. His early education laid a strong foundation for his innovative approach to radiation detection and imaging technology.

Professional Endeavors 💼

Throughout his career, Song He has primarily focused on developing novel radiation detectors and imaging technologies. His work emphasizes improving the performance of scintillators for better X-ray and neutron imaging. He has filed several patents related to his inventions, demonstrating his commitment to transformative research in radiation detection. Despite limited professional collaborations at this stage, his independent contributions have been highly impactful in the scientific community.

Contributions and Research Focus 🔬

Song He’s research primarily revolves around novel radiation detectors and scintillator technologies. In particular, he has developed a new class of scintillators that overcome traditional limitations by using hot exciton molecules (TPE-4Br) and conjugated polymers (PVT) to enhance performance. His contributions have led to breakthroughs in X-ray imaging and fast neutron imaging resolution, significantly advancing the field of radiation detection.

Impact and Influence 🌍

Song He’s work is paving the way for high-resolution imaging technologies that can have a significant impact in fields such as medical diagnostics, nuclear physics, and security imaging. His innovative approaches are influencing both academic research and practical applications. His recent paper in Advanced Functional Materials (DOI: 10.1002/adfm.202503688) received recognition for offering a new solution to long-standing challenges in the radiation detection field.

Academic Citations 📑

Although Song He’s citation index is not formally listed, his work is published in top-tier journals like Advanced Functional Materials, Inorganic Chemistry, Advanced Materials, and The Journal of Physical Chemistry C. The high impact of his research is evident in the citations of his publications, showing their relevance and influence in the scientific community.

Research Skills 🧠

Song He demonstrates exceptional skills in materials science, physics, and electronic technology. His ability to synthesize innovative materials and develop advanced radiation detectors showcases his technical expertise. Additionally, he has practical skills in scintillator synthesis, polymer chemistry, and in-situ polymerization. His experimental design and analytical techniques allow for high-precision imaging, which is crucial for the future of radiation detection.

Awards and Honors 🏅

Currently, Song He has not reported receiving formal awards or honors. However, the significance of his innovative research and published work in high-impact journals positions him as a rising star in his field. His patent applications and scientific contributions hint at a promising future where such recognitions are likely.

Legacy and Future Contributions 🔮

With his cutting-edge research in radiation detectors and imaging technologies, Song He is poised to make long-lasting contributions to both academic and industry sectors. His future work holds the potential for further advancements in medical imaging, nuclear research, and security applications, with his innovative materials providing solutions to longstanding challenges. As his career progresses, Song He is expected to become a significant figure in radiation detection technologies, with lasting impact on both science and society.

Publications Top Notes

High‐Performing Direct X‐Ray Detection Made of One‐Dimensional Perovskite‐Like (TMHD)SbBr₅ Single Crystal With Anisotropic Response

  • Authors: Guangya Zheng, Haodi Wu, Song He, Hanchen Li, Zhiwu Dong, Tong Jin, Jincong Pang, Rachid Masrour, Zhiping Zheng, Guangda Niu et al.
    Journal: Small
    Year: 2025

Hot Exciton‐Based Plastic Scintillator Engineered for Efficient Fast Neutron Detection and Imaging

  • Authors: Song He, Pengying Wan, Hanchen Li, Zizhen Bao, Xinjie Sui, Guangya Zheng, Hang Yin, Jincong Pang, Tong Jin, Shunsheng Yuan et al.
    Journal: Advanced Functional Materials
    Year: 2025

Close‐to‐Equilibrium Crystallization for Large‐Scale and High‐Quality Perovskite Single Crystals

  • Authors: Hang Yin, Mingquan Liao, Yuanpeng Shi, Zhiqiang Liu, Hanchen Li, Song He, Zhiping Zheng, Ling Xu, Jiang Tang, Guangda Niu
    Journal: Advanced Materials
    Year: 2025

BiSBr, an Anisotropic One-Dimensional Chalcohalide Used for Radiographic Detection

  • Authors: Yunmeng Liang, Pang Jincong, Zhang Qingli, He Song, Xu Ling, Luo Wei, Zhiping Zheng, Guangda Niu
    Journal: The Journal of Physical Chemistry C
    Year: 2024

Remarkable Improvement of Thermoelectric Performance in Ga and Te Cointroduced Cu₃SnS₄

  • Authors: Song He, 勇 罗, Liangliang Xu, Yue Wang, Zhongkang Han, Xie Li, Jiaolin Cui
    Journal: Inorganic Chemistry
    Year: 2021

 

 

Muhammad Danish Sultan | High energy physics | Best Researcher Award

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Mr. Muhammad Danish Sultan | High energy physics | Best Researcher Award

Visiting Lecturer at Emerson University | Pakistan

Muhammad Danish Sultan is an emerging researcher and educator specializing in the field of Black Hole Physics. He is currently a Visiting Lecturer at Emerson University in Multan, Pakistan, where he shares his knowledge and expertise with aspiring students. His academic journey has been marked by deep theoretical exploration into the nature of black holes, particularly focusing on their thermodynamics, Hawking evaporation, acceleration processes, and shadow images. Sultan’s research is known for its innovative approach, leading to numerous published works in high-impact journals.

👨‍🎓Profile

Scopus

Early Academic Pursuits 🎓

Sultan’s academic foundation was laid during his BS in Physics at Govt. College University Faisalabad, where he developed a strong understanding of core physics principles. He further enhanced his academic depth with a Master’s degree (MS) in Black Holes Physics from Riphah International University, where his specialization included complex phenomena like Hawking radiation and black hole accretion. Sultan also pursued an MA in Education to bridge his passion for science with teaching methodology, solidifying his commitment to both research and education.

Professional Endeavors 📚

Sultan’s professional trajectory reflects a profound commitment to education and research. He began his teaching career as a Physics Teacher at Ravi College in Mian Channu (2021-2022), where he imparted knowledge on fundamental physics concepts. In his current role as a Visiting Lecturer at Emerson University Multan, he is recognized for his ability to make complex topics in theoretical physics accessible and engaging for students. His focus on innovative teaching methods enhances students’ learning experiences, positioning him as a dynamic figure in the academic community.

Contributions and Research Focus 🔬

Sultan’s research contributions in black hole physics have been extensive and groundbreaking. He has co-authored numerous papers on subjects like the Hawking evaporation of black holes, thermodynamics of black holes, and greybody factors. His research on Kerr-Newman-Kasuya black holes and Charged Ads black holes has been instrumental in broadening the understanding of phase transitions, stability analysis, and the impact of modified gravity on black holes. His focus is primarily on understanding advanced theoretical phenomena in black hole physics, contributing valuable insights into how gravity theories affect accretion disks, quasinormal modes, and shadow images of black holes.

Impact and Influence 🌍

Sultan’s research publications have made a significant impact in the field of astrophysics, especially within high-energy astrophysics. With contributions to journals such as Physica Scripta, Nuclear Physics B, and High Energy Astrophysics, his work is cited by many in the theoretical physics community. Sultan’s studies on the optical aspects of black holes, along with the dynamic stability of charged dilatonic black holes, reflect his deep understanding and innovative approach to black hole dynamics. His work influences not only theoretical physics but also astronomical observations in terms of black hole imaging and radiation.

Academic Citations 📑

Sultan’s work has already garnered attention in the scientific community, with multiple papers published in high-impact journals and several others under submission. His publications on topics like Hawking Evaporation, Accretion Disk Dynamics, and Greybody Factors are frequently cited by researchers in the fields of general relativity and cosmology. His comprehensive studies on the thermodynamic geometry of black holes have become an essential reference for anyone working in the domain of astrophysical research.

Research Skills 🧑‍🔬

Sultan is well-versed in utilizing advanced computational tools for his research, including Mathematica, Maple, and WinEdt. His proficiency in these tools has enabled him to perform complex calculations, simulations, and data analysis, which are crucial for modeling phenomena such as black hole accretion and shadow images. His ability to engage with complex theories and translate them into computational results further strengthens his research.

Teaching Experience 📚

In addition to his research, Sultan’s teaching career has played a vital role in shaping his professional journey. He has taught undergraduate and postgraduate students at Emerson University and Ravi College, focusing on general physics, theoretical physics, and astrophysics. His teaching philosophy is centered on promoting active learning and fostering critical thinking in students. Sultan’s commitment to pedagogical development is evident through his participation in various workshops, such as Classroom Management and Computational Tools in Research.

Awards and Honors 🏅

Throughout his academic career, Sultan has been recognized for his outstanding contributions to both teaching and research. He has received Certificates of Appreciation for his participation in several prestigious workshops, including those on Nanotechnology Innovations, Classroom Management, and Computational Research Tools. These accolades reflect his dedication to enhancing both his research skills and his teaching effectiveness.

Legacy and Future Contributions 🔮

Muhammad Danish Sultan’s career is marked by his growing influence in the realm of black hole physics and astrophysics. With a solid foundation in both theoretical research and education, Sultan is poised to leave a lasting legacy in the scientific community. His future contributions are likely to push the boundaries of gravitational physics, and his work in emerging gravity theories could lead to new theoretical models and observational technologies in astrophysics. His dedication to research, teaching, and professional development ensures that he will continue to have a significant impact in the academic world, influencing both future researchers and students.

Publications Top Notes

Analysis of Hawking evaporation, shadows, and thermodynamic geometry of black holes within the Einstein SU(N) non-linear sigma model

  • Authors: Shahid Chaudhary, Muhammad Danish Sultan, Asifa Ashraf, Awatef Abidi, Ali M. Mubaraki
    Journal: Journal of High Energy Astrophysics
    Year: 2025

Effect of Modified Gravity in the Hawking Evaporation of Charged Ads Black Hole

  • Authors: Shahid Chaudhary, Muhammad Danish Sultan et al.
    Journal: Physica Scripta
    Year: 2023

Images and stability of black hole with cloud of strings and quintessence in EGUP framework

  • Authors: Shahid Chaudhary, Muhammad Danish Sultan et al.
    Journal: Nuclear Physics B
    Year: 2024

Optical Aspects of Born-Infeld BTZ Black Holes in Massive Gravity

  • Authors: Muhammad Danish Sultan, Shahid Chaudhary et al.
    Journal: Physica Scripta
    Year: 2024

Greybody Factor and Accretion Disk Around Regular Black Holes in Verlinde Emergent Gravity

  • Authors: Shahid Chaudhary, Muhammad Danish Sultan et al.
    Journal: High Energy Astrophysics
    Year: 2025

Valeriu Savu | High energy physics | Best Researcher Award

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Dr. Valeriu Savu | High energy physics | Best Researcher Award

INOE2000 | Romania

Valeriu Savu is a highly accomplished Technological Development Engineer with an extensive career spanning over 35 years. Currently working at the National Institute of Research and Development for Optoelectronics (INOE2000) in Măgurele, Romania, Savu has demonstrated significant expertise in research and development of electronic modules and optical equipment. His work primarily revolves around lasers, optical fibers, and nanotechnology, and his contributions have been instrumental in advancing applications within telecommunications and military systems.

👨‍🎓Profile

Google scholar

Scopus

ORCID

Early Academic Pursuits 🎓

Savu’s academic journey began at the Polytechnic Institute of Bucharest, where he obtained a Bachelor’s degree in Electronics and Telecommunications in 1986. Later, he pursued a Master’s degree in Nanostructures and Unconventional Engineering Processes at the Polytechnic University of Bucharest (2012-2014). This was followed by the completion of his PhD in Engineering Sciences in 2007-2014 with a thesis on radio pulse selection and processing. His doctoral work focused on cosmic ray detection, emphasizing advanced methodologies for high-precision data processing in complex environments like saline settings.

Professional Endeavors 💼

Savu’s professional career began in 1990 with the Research Design Institute of Electromechanics ICPEM, where he worked on military electronics systems. From 2000 to 2005, he served as an Engineer at Elettra Communications S.A., contributing to the telecommunications sector with an emphasis on testing and verification of military-grade equipment. Since 2005, Savu has been at INOE2000, leading the Department of Engineering Design and Technology, where he focuses on cutting-edge optical devices and laser systems. His experience spans across the creation of advanced lasers, fiber optics, and sensor technologies for both commercial and military applications.

Contributions and Research Focus 🔬

Valeriu Savu has made notable contributions to several fields, including laser technology, optical fibers, and military electronics. He is an expert in the design, testing, and characterization of laser systems, photovoltaics, and nanostructured materials. One of his major research focuses includes Cherenkov radiation detection and the application of nanotechnology for optical sensing. Savu has been involved in the development of innovative sensors, including UV sensors for organic materials and high-voltage power supplies used in medical laser systems.

Impact and Influence 🌍

Savu’s work has significantly advanced the field of optoelectronics and has been applied in medical, military, and telecommunications sectors. He has also patented several devices, including laser protection systems and cosmic radiation detectors for specialized environments like salt mines. His innovative solutions continue to influence scientific research and engineering practices globally.

Academic Cites 📚

Savu’s scholarly work has earned recognition within the academic community, with numerous scientific articles published in prominent journals. His research has appeared in the Romanian Journal of Physics, Romanian Journal of Biophysics, and other prestigious publications. He has contributed to international conferences and his research papers are frequently cited by peers. Notable academic publications include his studies on the Nd:YAG laser for microsurgical ophthalmology and breast tissue investigation using diffuse optical tomography.

Research Skills 🧑‍💻

Valeriu Savu is highly skilled in experimental research, device testing, and the design of optical systems. He has expertise in advanced signal processing, laser characterization, and system integration. Savu’s proficiency with software tools such as OrCAD, FabMaster, NI Multisim, and OriginLab has made him a highly versatile researcher, capable of modeling complex systems and optimizing experimental designs. His experience spans across lab-based investigations, field tests, and cross-disciplinary applications of advanced technologies.

Teaching Experience 🍏

While Savu’s career has been predominantly research-driven, his extensive academic background and technical expertise have made him a valuable contributor to teaching and training in the field of optoelectronics. He has actively mentored students at various stages of their careers, guiding them through engineering problems and sharing his knowledge of cutting-edge technologies. His role as a PhD advisor and involvement in academic projects has contributed to the development of future scientists and engineers in the optoelectronics field.

Awards and Honors 🏆

Throughout his career, Savu has received various certificates and awards recognizing his contributions to both military and civilian applications. His innovative work has been acknowledged by organizations and research institutions, and he has earned several certificates of innovation for his unique designs and systems. Savu’s patents are a testament to his creative and practical contributions to optical technology and laser applications.

Legacy and Future Contributions 🔮

Savu’s extensive body of work leaves a lasting legacy in the field of optoelectronics, particularly in laser applications, telecommunications, and military technology. His ongoing work in cosmic radiation detectors and laser safety will likely influence future technological advancements in various sectors. As he continues to develop new systems and devices, his future contributions are expected to further shape the landscape of optical technology and engineering research.

Patents and Innovations 💡

Valeriu Savu’s patents reflect his ingenuity and forward-thinking approach to technology. Some of his recent applications include systems for automated discharge protection in laser pumps and power supply disconnect systems. His patents focus on enhancing the safety and efficiency of electronic systems, laser devices, and telecommunications infrastructure, with an emphasis on providing innovative solutions for user protection and optimal performance in real-world applications.

Publications Top Notes

Power Dissipation Reduction System for Adjustable Power Supplies

  • Authors: V Savu, MI Rusu, D Savastru, D Manea
    Journal: Energies
    Year: 2025

Analysis of a high-power laser thermal phenomena induced onto a composite made UAV/drone in flight

  • Authors: D Savastru, V Savu, MI Rusu, M Tautan, A Stanciu
    Journal: Journal of Optoelectronics and Advanced Materials
    Year: 2024

Sampling the travel distance of a vehicle through an unconventional method for data acquisition

  • Authors: MI Rusu, V Savu, D Savastru, CH Gandescu, A Stan, DM Cotorobai
    Journal: Journal of Optoelectronics and Advanced Materials
    Year: 2023

Grating Optic Fiber Sensors Detection of Smart Polymer Composite Delamination

  • Authors: D Savastru, D Savastru, MI Rusu, M Tautan, V Savu, II Lancranjan
    Journal: Optics, Photonics and Lasers
    Year: 2023

Ellipsometric characterization of tungsten oxide thin films, before and after He plasma exposure

  • Authors: MI Rusu, Y Addab, C Martin, C Pardanaud, V Savu, II Lancranjan, …
    Journal: Optoelectronics and Advanced Materials-Rapid Communications
    Year: 2023

 

Emmanuel Adeyefa | Theoretical Physics | Member

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Assoc Prof Dr. Emmanuel Adeyefa | Theoretical Physics | Member

PHD at University of Ilorin, Nigeria

Dr. Emmanuel Oluseye Adeyefa is a distinguished mathematician and academic leader from Nigeria. With a Ph.D. in Mathematics from the University of Ilorin, he currently serves as a Reader at the Department of Mathematics, Federal University Oye-Ekiti. His administrative roles include acting as Head of Department and Postgraduate Coordinator. With a passion for teaching, he has instructed various courses and supervised numerous undergraduate and postgraduate projects. A committed scholar, he actively participates in conferences and workshops, contributing to advancements in mathematics and cryptography. Beyond academia, he engages in community service and enjoys activities such as reading, football, and music.

Professional Profiles:

Education

Ph.D. in Mathematics, University of Ilorin, 2014 M.Sc. in Mathematics, University of Ilorin, 2007 B.Sc. in Mathematics, University of Ilorin, 2003 PGD in Education, Obafemi Awolowo University, 2014

Administrative Experience

Acting Head, Department of Mathematics Postgraduate Coordinator University Examination Committee Member Level Adviser/Coordinator Departmental Seminar Coordinator Staff Secretary Various Committee Memberships and Chairmanships. Federal University Wukari, Taraba State Oduduwa University, Osun State Southern Institute of Innovative Technology (SNIIT Polytechnic), Osun State

Teaching Experience

Various courses in Mathematics including Linear Algebra, Mathematical Packages, Vector and Tensor Analysis, Real Analysis, Mathematical Methods, Analytical Dynamics, Fluid Dynamics, and Numerical Analysis.

Awards

Recipient of various awards including Departmental Best Graduating Student and Best Lecturer of the year.

Research Focus:

Dr. Emmanuel Oluseye Adeyefa’s research focus primarily revolves around the development and application of advanced numerical methods for solving various classes of ordinary and partial differential equations. His work spans topics such as direct integration methods, orthogonal basis function formulations, hybrid block methods, and collocation approaches. Additionally, he explores the use of polynomial and orthogonal basis functions, particularly Chebyshev polynomials, in continuous formulations of numerical solvers. Adeyefa’s contributions bridge mathematical theory with practical applications, showcasing his expertise in computational mathematics and algorithm development, with potential applications in cryptography and queueing systems.

Publications

  1. Error estimation of the integral tau method for fourth order overdetermined ODES, Publication: 2023.
  2. Integral tau Method for Certain Over-determined Fourth-Order Ordinary Differential Equations., Publication: 2023.
  3. A Generalized Series Solution of 𝒏𝒕𝒉 Order Ordinary Differential Equations, Publication: 2023.
  4. Improved 2-Point Hybrid Block Model for Direct Integration of Third and Fourth-Order Initial Value Problems, Publication: 2023.
  5. Algebraic characterization of Ifa main divination codes, Publication: 2023.
  6. Ninth-order Multistep Collocation Formulas for Solving Models of PDEs Arising in Fluid Dynamics: Design and Implementation Strategies, Publication: 2023.
  7. Hybrid block methods with constructed orthogonal basis for solution of third-order ordinary differential equations, Publication: 2023.
  8. A continuous five-step implicit block unification method for numerical solution of second-order elliptic partial differential equations, Publication: 2023.
  9. Implicit hybrid block methods for solving second, third and fourth orders ordinary differential equations directly, Publication: 2022.
  10. New developed numerical formula for solution of first and higher order ordinary differential equations, Publication: 2022.
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Seyyed Abdollahi | High energy physics | Member

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Mr. Seyyed Abdollahi | High energy physics | Member

Scholarship at Tabriz University, Iran

I was B.Sc. Student in Mechanical Engineering at Tabriz University and I was among the top 5%, I also received a full scholarship from Tabriz University for the master’s degree, and now I am a master’s student in energy conversion trend at Tabriz University. I was also a Teacher assistant in the Strength of Materials and Design of Machine Elements courses, and I have been working with Dr. Seyyed Faramarz Ranjbar and Dr. Farid Vakili Tahami for 1 year. I am also interested in researching the topics of Power Plants, Thermodynamics, Fluid mechanics, Air conditioning, Energy and Solar energy. Which led to the writing three books I am also interested in working and researching on these topics in the future: 1-Renewable Energy 2-Exergy Analysis 3-Piezoelectric Micropumps 4-Photovoltaics(PV) 5-Nanofluids 6-Energy Analysis 7-Fuel Cells 8-Analysis of Wind Turbin

Professional Profiles:

Education

Master of Mechanical Engineering Branch: Energy Conversion Institute/University: Tabriz University Tabriz , East Azerbaijan, Iran 2022 – Present Bachelor of Mechanical Engineering Institute/University: Tabriz University Tabriz , East Azerbaijan, Iran 2018 – 2022 GPA : 17.90(out of 20)

Work Experience

Internship Tabeiz Thermal Power Station Tabriz , East Azerbaijan, Iran July 2021 – August 2021 Tasks and Achievements Teacher Assistant in the Design of Machine Elements course Tabriz University Tabriz , East Azerbaijan, Iran September 2021 – Present Tasks and Achievements Teacher Assistant in the Power Plants course Tabriz University Tabriz , East Azerbaijan, Iran September 2022 – January 2023 Email: s.a_abdollahi@yahoo.com Mobile: (+98)9380596289 Website: www.linkedin.com/in/seyyed-amirrezaabdollahi-powerplants-renewableenergy Address: Tabriz , East Azerbaijan, Iran DoB: 1998-09-24 Marital Status: Single Military Service: Educational Exemption Seyyed Amirreza Abdollahi Mechanical Engineering Profile Summary Education Work Experience I went to the Tabriz Thermal Power Plant for a training course. There i observed the things that i studied theoretically in the Thermodynamics course. I visited the important parts ofthe power plant such as ControlRoom, Steam Turbines, Boilers, Cooling Towers and the Chemical Department . Results of my research led me to write a book called “Tabriz Thermal Power Plant” As a teacher’s assistant, I solved additional exercises forthe students and supervised their

Research Focus:

The research focus of SA Abdollahi spans across various fields, primarily centered around computational fluid dynamics (CFD), heat transfer, nanofluids, porous media techniques, and numerical analysis. Their work encompasses simulations of heat transfer and fluid flow in microchannel heat sinks, investigation of blood hemodynamics in aneurysms, optimization of chemical processes, and modeling the separation capabilities of membranes. Additionally, they explore topics such as magnetohydrodynamics, biomaterial phase equilibria, and the application of machine learning techniques in estimating biomass properties. Abdollahi’s research demonstrates a broad interest in advancing understanding and optimization across diverse engineering and scientific domains.

Publications

  1. Computer simulation of Cu: AlOOH/water in a microchannel heat sink using a porous media technique and solved by numerical analysis AGM and FEM, cited by: 37, Publication: 2023.
  2. Investigating heat transfer and fluid flow betwixt parallel surfaces under the influence of hybrid nanofluid suction and injection with numerical analytical technique, cited by: 29, Publication: 2023.
  3. Computational study of blood hemodynamic in ICA aneurysm with coiling embolism, cited by: 18, Publication: 2023.
  4. Numerical study of heat transfer of wavy channel supercritical CO2 PCHE with various channel geometries, cited by: 11, Publication: 2023.
  5. Influence of extruded injector nozzle on fuel mixing and mass diffusion of multi fuel jets in the supersonic cross flow: computational study, cited by: 9, Publication: 2023.
  6. Removal of ciprofloxacin and cephalexin antibiotics in water environment by magnetic graphene oxide nanocomposites; optimization using response surface methodology, cited by: 7, Publication: 2023.
  7. Optimizing the amount of concentration and temperature of substances undergoing chemical reaction using response surface methodology, cited by: 7, Publication: 2023
  8. Phase Equilibria Simulation of Biomaterial-Hydrogen Binary Systems Using a Simple Empirical Correlationcited by: 6, Publication: 2023
  9. Modeling the CO2 separation capability of poly(4-methyl-1-pentane) membrane modified with different nanoparticles by artificial neural networks,  cited by: 5, Publication: 2023
  10. Applying feature selection and machine learning techniques to estimate the biomass higher heating valuecited by: 3, Publication: 2023
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Supersymmetry

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Introduction to Supersymmetry:

Supersymmetry, often abbreviated as SUSY, is a profound and elegant theoretical framework in particle physics. It proposes a symmetry between particles with integer spin (bosons) and those with half-integer spin (fermions). This concept introduces new, supersymmetric particles, which could potentially resolve several outstanding mysteries in the universe, such as dark matter and the hierarchy problem.

Supersymmetric Particle Searches:

Explore experimental efforts to discover supersymmetric particles, including searches at high-energy particle colliders like the Large Hadron Collider (LHC) and the development of detectors to identify supersymmetric signatures.

Supersymmetric Models:

Delve into various supersymmetric models, such as the Minimal Supersymmetric Standard Model (MSSM) and the Next-to-Minimal Supersymmetric Standard Model (NMSSM), which offer different predictions and solutions to particle physics puzzles.

Supersymmetry and Dark Matter:

Investigate the connection between supersymmetry and dark matter, where the lightest supersymmetric particle (LSP) is a leading candidate for the elusive dark matter component of the universe. Understand the implications for astrophysics and cosmology.

Electroweak Symmetry Breaking in SUSY:

Focus on how supersymmetry affects the mechanism of electroweak symmetry breaking and the Higgs boson, including the prediction of additional Higgs bosons in supersymmetric extensions of the Standard Model.

Phenomenology and Collider Signatures:

Examine the phenomenology of supersymmetry, including the expected collider signatures, decay modes, and distinctive features of supersymmetric particles, as well as efforts to detect them in experiments.

 

 

Particles and antiparticles
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Quark interactions
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Spontaneous symmetry breaking
  Introduction to Spontaneous Symmetry Breaking: Spontaneous symmetry breaking is a fundamental concept in physics that plays a crucial role in explaining various phenomena across different branches of science. It
The matter particles
  Introduction to The Matter Particles: Matter particles are the fundamental building blocks of the material world as we know it. These particles form the basis of everything in the
Weak interactions
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Particle Experiments
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Quantum Field Theory
  Introduction to Quantum Field Theory: Quantum Field Theory (QFT) is a foundational framework in theoretical physics that combines the principles of quantum mechanics and special relativity to describe the
Computational Methods
  Introduction to Computational Methods: Computational methods represent a cornerstone of modern science and engineering, providing powerful tools for solving complex problems, simulating physical phenomena, and analyzing vast datasets. These
Dark Matter Studies
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Collider Phenomenology
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