Yang Tan | Interactions and fields | Best Researcher Award

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Prof. Dr. Yang Tan | Interactions and fields | Best Researcher Award

Shandong University | China

Professor Yang Tan is a distinguished academic leader and researcher in the field of integrated photonics, specializing in microcavity lasers, crystalline films, and optical signal amplification. Born in March 1984, he has risen through the ranks of Shandong University to become a Professor at the School of Physics. His impressive career includes significant contributions to photonics and laser technologies, having published more than 60 peer-reviewed papers in top-tier journals such as Advanced Functional Materials, ACS Nano, and Optics Letters. His ongoing research focuses on advancing ultrafast lasers, micro-nano optical field manipulation, and single crystal thin films.

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Early Academic Pursuits šŸŽ“

Professor Tan began his academic journey in 2006, pursuing a PhD in Physics at Shandong University, where he honed his skills in optics and material sciences. He earned his doctorate in 2011 and subsequently advanced to postdoctoral research at the University of Calgary in Canada, where he deepened his expertise in laser technologies and optical materials. These early academic experiences laid the foundation for his groundbreaking research in integrated photonics and microcavity lasers.

Professional Endeavors šŸ’¼

After completing his postdoctoral studies, Professor Tan returned to Shandong University as a Lecturer in 2012, eventually progressing to Associate Professor in 2015, and later Professor in 2018. His career at Shandong University has been marked by his leadership in research and teaching, overseeing numerous National Natural Science Foundation projects and contributing significantly to the development of innovative optical technologies. He has also served as a PhD supervisor, mentoring the next generation of physicists and engineers.

Contributions and Research Focus šŸ”¬

Professor Tanā€™s research focus lies at the intersection of integrated photonics, laser physics, and material science. His innovative work explores the manipulation of micro-nano optical fields, the development of single crystal thin films, and the interaction between energetic ions and solids. His research on microcavity lasers has led to significant breakthroughs, such as the development of mid-infrared laser emissions, enhanced thermal stability of microdisk lasers, and heterogeneous integration of on-chip lasers. These contributions have placed him at the forefront of photonics research, with direct applications in telecommunications, sensing technologies, and quantum optics.

Impact and Influence šŸŒ

Professor Tanā€™s work has had a profound impact on the fields of photonics and material sciences. His publications in high-impact journals have advanced the understanding of microcavity laser technologies, optical waveguide systems, and crystalline film integrations. His interdisciplinary approach has influenced researchers not only in optics but also in fields like nanoelectronics, quantum information, and bio-optics. His research has led to tangible technological advancements, pushing the boundaries of laser efficiency, thermal management, and nanophotonic integration.

Academic Citations šŸ“‘

With more than 60 academic papers and several highly cited works, Professor Tanā€™s research has earned substantial recognition within the scientific community. His papers have been cited in leading journals such as Light: Science & Applications, ACS Nano, and Nano Letters, underlining the wide influence and importance of his contributions. His research has been cited extensively for its innovation in microcavity lasers and integrated photonics, demonstrating the global impact of his work.

Research Skills šŸ”

Professor Tan possesses a comprehensive set of research skills, including expertise in photonics, nanotechnology, material synthesis, and ultrafast laser technologies. His ability to merge fundamental physics with applied technologies has enabled him to address challenges in optical signal amplification, microlaser emissions, and material integration. His innovative approach to defect engineering in van der Waals heterostructures and the development of whispering-gallery mode lasers is a testament to his creative and analytical prowess.

Teaching Experience šŸ“š

As a PhD supervisor and Professor, Professor Tan has taught a wide range of courses in optics, photonics, and material science. He is known for his engaging teaching style, which encourages critical thinking and hands-on experimentation. His mentoring extends beyond the classroom, where he has guided numerous graduate students and postdoctoral researchers, helping them develop into independent researchers and experts in their fields. His leadership in education reflects his commitment to fostering future generations of scientists.

Awards and Honors šŸ†

Professor Tanā€™s outstanding research has been recognized by several prestigious awards. In 2022, he received the National Excellent Young Scientists Fund, acknowledging his significant contributions to integrated photonics. Additionally, his achievements have earned him the Shandong Provincial Natural Science Award (Second Prize) twice. These honors reflect the impact of his work on both the scientific community and society at large.

Legacy and Future Contributions šŸ”®

Professor Yang Tanā€™s legacy is built on his pioneering work in the development of microcavity lasers and integrated photonic systems, which continue to influence the evolution of photonics and nanotechnology. Looking ahead, Professor Tan aims to expand his research into quantum photonics and biomedical applications, which will likely have far-reaching effects in the fields of quantum communication, biomedical imaging, and sensing. His continued exploration of novel materials and laser technologies promises to shape the future of photonics and related industries, making him a key figure in the ongoing technological revolution.

Publications Top Notes

Hopping transfer optimizes avalanche multiplication in molybdenum disulfide

  • Authors: Xiaofan Cai, Ruichang Chen, Yushui Tian, Xu Gao, Meili Yuan, Haixia Hu, Hang Yin, Yuanyuan Qu, Yang Tan, Feng Chen
    Journal: Materials Today Nano
    Year: 2025

Human-friendly semitransparent organic solar cells achieving high performance

  • Authors: Zonghao Wu, Beibei Shi, Jiangsheng Yu, Mengzhen Sha, Jiangkai Sun, Dongcheng Jiang, Xin Liu, Wenxiao Wu, Yang Tan, Huiyuan Li et al.
    Journal: Energy & Environmental Science
    Year: 2024

Enhancing thermal stability of Nd:GGG WGM microdisk lasers via silica integration

  • Authors: Huiqi Li, Zhaocong Wang, Lei Wang, Yang Tan, Feng Chen
    Journal: Nanophotonics
    Year: 2024

Free-space laser emission from Nd:YAG elliptical microdisks

  • Authors: Huiqi Li, Zhaocong Wang, Qingming Lu, Lei Wang, Yang Tan, Feng Chen
    Journal: Optics Letters
    Year: 2024

Selective 1.3 Ī¼m Laser Emission via Coupled Microlaser for Laser Resonance Tuning

  • Authors: Huiqi Li, Zhaocong Wang, Lei Wang, Yang Tan, Feng Chen
    Journal: ACS Photonics
    Year: 2024

 

 

Forrest Mozer | Interactions and fields | Lifetime achievement Award

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Prof. Forrest Mozer | Interactions and fields | Lifetime achievement Award

U. of California, Space Sciences Laboratory | United States

Forrest S. Mozer is a distinguished physicist renowned for his pioneering work in space plasma physics. With an illustrious career spanning over six decades, Mozer has made seminal contributions to our understanding of space environments, particularly in the areas of electric field measurement techniques and space plasma dynamics. His academic and research leadership at the University of California, Berkeley, and his ongoing research output continue to influence the field today.

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Early Academic Pursuits šŸŽ“

Mozerā€™s academic journey began with a B.S. in Physics from the University of Nebraska in 1951, followed by a M.S. and Ph.D. in Physics from the prestigious California Institute of Technology (Caltech) in 1953 and 1956, respectively. His time at Caltech laid the groundwork for his deep engagement with space physics, shaping his future contributions to the field.

Professional Endeavors šŸ†

Mozer’s professional career began in 1967 at the University of California, Berkeley, where he served as an Associate Professor in the Department of Physics. He was promoted to Professor in 1970, holding this position for over two decades. His leadership extended beyond the classroom as he became Vice-Chairman of the Department (1970-73) and later Associate Director of the Space Sciences Laboratory at Berkeley (1985-94, 1997-2019). Mozerā€™s tenure in these roles showcased his commitment to advancing space sciences, both through research and the mentorship of younger scholars.

Contributions and Research Focus šŸš€

One of Mozerā€™s most significant contributions is the invention of the spherical double probe technique, a critical method for measuring electric fields in space plasmas. This technique revolutionized how scientists observe space environments, becoming a staple in nearly every electric field experiment conducted in space. Mozerā€™s research has also extended to understanding the dynamics of auroral protons, time-domain structures, and the origin of Type-III solar radiation. His work continues to push the boundaries of space physics, with ongoing studies into solar probes and parallel electric fields that impact auroral displays.

Impact and Influence šŸŒ

Mozerā€™s impact on the field of space physics is immeasurable. Through his extensive research and innovative methods, he has shaped our understanding of space plasmas and their behavior, particularly in the polar magnetosphere. His influence is reflected in his leadership at Berkeleyā€™s Space Sciences Laboratory, where he directed pioneering space missions. His research focus has provided new insights into plasma dynamics and continues to inform cutting-edge research on solar activities and magnetospheric physics.

Academic Citations šŸ“š

Mozerā€™s work has earned him significant recognition in the scientific community. His research has been cited in numerous refereed publications, with his contributions appearing in prestigious journals such as the Journal of Geophysical Research (JGR), Physics Review Letters, and Geophysical Research Letters. In the last six years, he has authored 21 refereed publications and coauthored 103 others, maintaining a high citation profile.

Research Skills šŸ”¬

As a leading figure in space physics, Mozerā€™s research skills are expansive. His ability to design and implement electric field measurement techniques in challenging space environments is unparalleled. Additionally, his deep understanding of plasma physics, space weather, and solar radiation has driven some of the most important discoveries in the field. His collaborative work with other top researchers ensures that his impact continues to grow.

Teaching Experience šŸŽ

In addition to his research contributions, Mozer has been an inspiring educator. His receipt of the Distinguished Teaching Award from the Committee on Teaching of the Academic Senate in 1978 highlights his dedication to shaping future generations of scientists. As a Professor of the Graduate School at UC Berkeley, he not only contributed to academic curriculum but also mentored countless students who have gone on to become prominent physicists in their own right.

Awards and Honors šŸ…

Mozerā€™s exceptional career has been marked by numerous awards and honors that recognize his groundbreaking contributions to science. These include the 1963-64 Guggenheim Fellowship at the University of Paris, the Hannes Alfven Medal in 2004, the Fleming Medal in 2018, and being named a Fellow of both the American Physical Society and the American Geophysical Union. These accolades underscore his exceptional contributions to space physics and his influence in the scientific community.

Legacy and Future Contributions šŸŒŸ

Mozerā€™s legacy is firmly established in the scientific community, with his spherical double probe technique and research contributions remaining central to space plasma physics. As a research physicist at the Space Sciences Laboratory at UC Berkeley, his future contributions will continue to advance our understanding of space and solar phenomena. With his ongoing research, Mozer will undoubtedly remain a vital figure in the study of space environments and the scientific exploration of our universe.

Ā  Publications Top Notes

Direct Measurements of Synchrotron-emitting Electrons at Near-Sun Shocks

  • Authors: Jebaraj, I.C., Agapitov, O.V., Gedalin, M., Bale, S.D., Vainio, R.
    Journal: Astrophysical Journal Letters
    Year: 2024

Origin of the type III radiation observed near the Sun

  • Authors: Mozer, F.S., Agapitov, O., Bale, S.D., Sauer, K., Voshchepynets, A.
    Journal: Astronomy and Astrophysics
    Year: 2024

Whistler Waves in the Young Solar Wind: Statistics of Amplitude and Propagation Direction from Parker Solar Probe Encounters 1-11

  • Authors: Choi, K.-E., Agapitov, O., Colomban, L., Raouafi, N., Dudok de Wit, T.
    Journal: Astrophysical Journal
    Year: 2024

Resonance of Low-frequency Electromagnetic and Ion-sound Modes in the Solar Wind

  • Authors: Vasko, I.Y., Mozer, F.S., Bowen, T., Halekas, J., Kuzichev, I.V.
    Journal: Astrophysical Journal Letters
    Year: 2024

Slow Electron Holes in the Earth’s Magnetosheath

  • Authors: Shaikh, Z.I., Vasko, I.Y., Hutchinson, I.H., Newman, D.L., Mozer, F.S.
    Journal: Journal of Geophysical Research: Space Physics
    Year: 2024

 

 

Dejan MiloÅ”ević | Interactions and fields | Best Researcher Award

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Prof. Dr. Dejan MiloÅ”ević | Interactions and fields | Best Researcher Award

Full professor of theoretical physics, University of Sarajevo, Bosnia and Herzegovina

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Early Academic Pursuits šŸŽ“

Dejan MiloÅ”ević was born on July 5, 1959, in Sarajevo, Bosnia and Herzegovina. His academic journey began at the Faculty of Science, University of Sarajevo, where he studied Physics and completed his undergraduate degree in 1981. He furthered his education at the University of Belgrade, where he pursued postgraduate studies in Theoretical Physics, earning his M.Sc. in 1986 and Ph.D. in 1990. His doctoral thesis, titled “Atomic processes in a strong laser field,” laid the foundation for his long and distinguished career in laser physics and atomic theory.

Professional Endeavors šŸ’¼

MiloÅ”evićā€™s career spans over four decades, starting in 1982 when he worked as an Assistant at the Institute of Physics at the University of Sarajevo. From 1984 to 1998, he served as a Researcher at the Research & Development Centre of the Zrak company, focusing on applied physics and technology. His academic journey advanced rapidly, and he became an Assistant Professor in 1991 at the Faculty of Mechanical Engineering, University of Sarajevo. By 1998, he joined the Department of Physics at the Faculty of Science, becoming an Associate Professor. He was promoted to Full Professor in 2004, specializing in Theoretical Physics. His leadership roles included heading the Department of Atomic, Molecular, and Optical Physics (2001-2004) and overseeing the Postgraduate Study of Physics (2004-2012). He also served as Vice-Dean for International Collaboration from 2011-2016, strengthening the university’s global academic relationships.

Contributions and Research Focus šŸ”¬

MiloÅ”evićā€™s research primarily focuses on atomic processes in strong laser fields, laser-matter interactions, and attosecond science. He has contributed significantly to the field of nonlinear optics and quantum mechanics. His pioneering work in atomic physics has had a profound impact on understanding laser-induced phenomena and the interaction between light and matter at ultra-short timescales. A notable aspect of his research is his work on attosecond physics, where he investigates the dynamics of electrons and their interaction with intense laser pulses. His collaboration with the Max-Born-Institut fĆ¼r Nichtlineare Optik und Kurzzeit-Spektroskopie in Berlin has been instrumental in advancing the field.

Impact and Influence šŸŒ

MiloÅ”evićā€™s work has garnered international recognition. His collaborations with research institutions such as the Institute for Theoretical Physics in Innsbruck and the University of Nebraska have broadened his impact. His research is frequently cited, and he has become a key figure in the atomic and laser physics community. His publications, totaling 247 papers, have been cited over 10,000 times, reflecting the profound influence of his work. He has received numerous awards, including the Alexander von Humboldt Fellowship and the Georg Forster Research Award from the Alexander von Humboldt Foundation, highlighting his exceptional contributions to the field of theoretical physics.

Academic Citations šŸ“š

According to the Web of Science Core Collection, MiloÅ”evićā€™s work has achieved substantial academic recognition, with an h-index of 52 and more than 10,000 citations. This underscores the impact of his research within the global scientific community. His scholarly output spans both highly theoretical and experimental domains, making him one of the leading experts in his field. His continued contributions ensure that his research remains highly influential, especially in the fields of laser-matter interactions and quantum mechanics.

Technical Skills šŸ› ļø

MiloÅ”ević possesses a wide range of technical skills that have been honed throughout his career. His expertise spans theoretical physics, quantum mechanics, laser physics, and nonlinear optics. He is proficient in the use of advanced computational tools for modeling atomic and molecular processes, and he has contributed to the development of new theoretical frameworks for understanding light-matter interactions at extreme timescales. His technical proficiency is complemented by a deep understanding of experimental techniques, gained through years of collaboration with leading research groups around the world.

Teaching Experience šŸ“–

MiloÅ”ević has been a dedicated educator at the University of Sarajevo, where he has mentored and trained hundreds of students at both undergraduate and postgraduate levels. He served as the Head of the Doctoral Study at the Department of Physics from 2013 to 2019, shaping the future of theoretical physics in Bosnia and Herzegovina. His teaching philosophy emphasizes rigorous scientific thinking and innovative research. As a result, his students have gone on to become leading physicists and researchers in their own right. His recognition as the Best Professor of the Year at the University of Sarajevo in 2009 reflects the high esteem in which he is held by his peers and students.

Legacy and Future Contributions šŸŒŸ

MiloÅ”evićā€™s legacy is one of academic excellence, scientific leadership, and international collaboration. He has significantly shaped the development of theoretical physics at the University of Sarajevo and in Bosnia and Herzegovina, leaving an indelible mark on the scientific landscape. His future contributions are likely to continue in the realm of attosecond science and quantum optics, areas where his research has already demonstrated great promise. As he continues his work with international collaborators, his ongoing research will undoubtedly lead to further breakthroughs in the understanding of laser physics and quantum dynamics.

Top Noted Publications

Asymptotic methods applied to integrals occurring in strong-laser-field processes
  • Authors: MiloÅ”ević, D.B., JaÅ”arević, A.S., Habibović, D., Čerkić, A., Becker, W.
    Journal: Journal of Physics A: Mathematical and Theoretical
    Year: 2024
Above-threshold ionization by a strong circularly polarized laser pulse assisted by a terahertz pulse
  • Authors: Agačević, D., IbriÅ”imović, N., Å krgić, D., MiloÅ”ević, D.B.
    Journal: European Physical Journal D
    Year: 2024
Quantum orbits in atomic ionization beyond the dipole approximation
  • Authors: JaÅ”arević, A.S., Habibović, D., MiloÅ”ević, D.B.
    Journal: Physical Review A
    Year: 2024
High-order above-threshold ionisation of diatomic molecules by few-cycle bicircular and orthogonally polarised two-colour pulses
  • Authors: Habibović, D., JaÅ”arević, A.S., Busuladžić, M., MiloÅ”ević, D.B.
    Journal: Physical Chemistry Chemical Physics
    Year: 2024
Wigner time delay revisited
  • Authors: Fetić, B., Becker, W., MiloÅ”ević, D.B.
    Journal: Annals of Physics
    Year: 2024
Modified saddle-point method applied to high-order above-threshold ionization and high-order harmonic generation: Slater-type versus asymptotic ground-state wave function
  • Authors: JaÅ”arević, A.S., Hasović, E., MiloÅ”ević, D.B.
    Journal: Physical Review A
    Year: 2024
Strong-field processes induced by an ultrashort linearly polarized pulse with two carrier frequencies
  • Authors: Habibović, D., MiloÅ”ević, D.B.
    Journal: Physical Review A
    Year: 2024