Arun Kumar | Physics | Editorial Board Member

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Dr. Arun Kumar | Physics | Editorial Board Member

Research Associate | Indian Institute of Technology (BHU) | India

Dr. Arun Kumar is a Post-Doctoral Fellow at the Indian Institute of Science Education and Research (IISER), Pune, specializing in multiferroics, strongly correlated systems, spin glasses, and magnetoelectric coupling. His research employs advanced experimental techniques such as X-ray and neutron scattering to investigate structural phase transitions, magnetic ground states, and spin-glass behavior in complex oxide materials, providing critical insights into the interplay between magnetoelastic, magnetoelectric, and dielectric phenomena for the development of next-generation multifunctional materials. Dr. Kumar’s key contributions include elucidating multiple spin-glass transitions, cluster glass phases, and low-temperature magnetic relaxation in disordered perovskites and hexagonal multiferroics, published in high-impact journals such as Physical Review B, Journal of Magnetism and Magnetic Materials, and Journal of Alloys and Compounds. He has also studied the effects of chemical doping, synthesis methods, and structural modifications on the dielectric and magnetic properties of functional materials, significantly advancing understanding of magnetoelectric coupling and energy storage potential. Through active collaboration with multidisciplinary research groups, Dr. Kumar fosters innovation across condensed matter physics, materials science, and applied engineering, with his work contributing to the design of energy-efficient, high-performance dielectric, multiferroic, and magnetoelectric devices and bridging fundamental science with practical technological applications.

Profiles: Google Scholar | ORCID

Featured Publications

Kumar, A., Kaushik, S. D., Siruguri, V., & Pandey, D. (2018). Evidence for two spin-glass transitions with magnetoelastic and magnetoelectric couplings in the multiferroic system. Physical Review B, 97(10), 104402. Citations: 65

Kumar, A., Senyshyn, A., & Pandey, D. (2019). Evidence for cluster spin glass phase with precursor short-range antiferromagnetic correlations in the B-site disordered perovskite. Physical Review B, 99(21), 214425. Citations: 56

Kumar, A., & Pandey, D. (2020). Study of magnetic relaxation, memory and rejuvenation effects in the cluster spin-glass phase of B-site disordered Ca(Fe1/2Nb1/2)O3 perovskite: Experimental evidence. Journal of Magnetism and Magnetic Materials, 511, 166964. Citations: 27

Kumar, P. A., Kumar, A., Kumar, K., Babu, G. A., Vijayakumar, P., et al. (2019). Evidence for Spin Glass Transition in Hexagonal DyMnO3 without Substitutional Disorder. The Journal of Physical Chemistry C, 123(50), 30499–30508. Citations: 21

Khorwal, A. K., Dash, S., Kumar, A., Lukoyanov, A. V., Shreder, E. I., Bitla, Y., et al. (2022). Evidence for canonical spin glass behaviour in polycrystalline Mn1.5Fe1.5Al Heusler alloy. Journal of Magnetism and Magnetic Materials, 546, 168752. Citations: 20

Bo Wang | Physics | Best Researcher Award

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Prof. Bo Wang | Physics | Best Researcher Award

Professor | Henan University | China

Prof. Bo Wang is a distinguished scholar in photonics and condensed matter physics, currently serving as a Professor at the School of Future Technology, Henan University, China. He received his B.S. degree in Applied Physics from Huazhong University of Science and Technology (2011–2015) and earned his Ph.D. in Condensed Matter Physics from Fudan University in 2020, where his research laid the foundation for his pioneering work in optical vortex beams and bound states in the continuum. Since his appointment as a professor in 2021, Prof. Wang has focused on research interests that span photonics, topological optics, metasurfaces, and wave manipulation, producing influential contributions that bridge fundamental physics and advanced optical technologies. His research skills include experimental and theoretical design of photonic crystal structures, manipulation of optical vortices, and interdisciplinary applications of topological wave phenomena, supported by strong project leadership in both national and international collaborations. Prof. Wang’s publication record includes multiple high-impact articles as first or corresponding author in prestigious journals such as Nature, Nature Photonics, Physical Review Letters, Optics Express, and Chinese Optics Letters, reflecting his ability to tackle frontier problems and produce transformative outcomes. He has been honored with several prestigious awards, including China’s Top 10 Optical Breakthroughs in 2020, the Guangqi Exploration Award and PhotoniX Prize from the Chinese Society for Optical Engineering in 2025, as well as the Zhongyuan Young Top-notch Talent recognition under the Zhongyuan Talents Program in 2023. In addition, he has secured competitive grants such as the National Natural Science Foundation of China Excellent Young Scientists Fund (2025). With his combination of academic excellence, international visibility, and mentorship, Prof. Wang has established himself as a dynamic leader in optical physics. His achievements and vision demonstrate strong potential to shape future innovations in photonics, inspire young scientists, and contribute meaningfully to global scientific advancement.

Profiles: Google Scholar | ResearchGate| ORCID

Featured Publications

  1. Wang, B., Liu, W., Zhao, M., Wang, J., Zhang, Y., Chen, A., Guan, F., Liu, X., Shi, L., & Zi, J. (2020). Generating optical vortex beams by momentum-space polarization vortices centred at bound states in the continuum. Nature Photonics, 14(10), 623–628. Cited by: 470

  2. Liu, W., Wang, B., Zhang, Y., Wang, J., Zhao, M., Guan, F., Liu, X., Shi, L., & Zi, J. (2019). Circularly polarized states spawning from bound states in the continuum. Physical Review Letters, 123(11), 116104. Cited by: 406

  3. Zhang, Y., Chen, A., Liu, W., Hsu, C. W., Wang, B., Guan, F., Liu, X., Shi, L., Lu, L., & Zi, J. (2018). Observation of polarization vortices in momentum space. Physical Review Letters, 120(18), 186103. Cited by: 292

  4. Zhao, M., Chen, M. K., Zhuang, Z. P., Zhang, Y., Chen, A., Chen, Q., Liu, W., Wang, J., & Wang, B. (2021). Phase characterisation of metalenses. Light: Science & Applications, 10(1), 52. Cited by: 113

  5. Wang, J., Li, H., Ma, Y., Zhao, M., Liu, W., Wang, B., Wu, S., Liu, X., Shi, L., & Jiang, T. (2020). Routing valley exciton emission of a WS₂ monolayer via delocalized Bloch modes of in-plane inversion-symmetry-broken photonic crystal slabs. Light: Science & Applications, 9(1), 148. Cited by: 98

Heshmatollah Yavari | Physics and Astronomy | Best Researcher Award

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Prof. Heshmatollah Yavari | Physics and Astronomy | Best Researcher Award

Prof at Uiversity of Isfaha, Iran

Professor Heshmatollah Yavari is a distinguished academic in the field of theoretical physics, specializing in superconductivity, superfluidity, and strongly correlated systems. He has made significant contributions to the study of Bose-Einstein condensation, ultracold atomic gases, and topological insulators. His research interests extend to optical lattices, granular electronic systems, neutron stars, and the exploration of Majorana fermions. Professor Yavari’s teaching experience spans several advanced topics in physics, including quantum mechanics, many-body physics, and quantum field theory. His publications reflect a broad range of contributions to the understanding of thermal conductivity, viscosity, and magnetic properties in superfluid and superconducting systems, among other topics.

Professional Profile 

Education

Professor Yavari’s academic journey began with a BSc in Physics from the University of Tabriz, followed by an MSc from the University of Isfahan. He then pursued a PhD in Theoretical Physics at the University of Isfahan, where his research focused on the temperature dependence of transport and magnetic coefficients in superfluid and superconductor systems. His academic training laid the foundation for his extensive contributions to the study of condensed matter physics, leading him to a prominent role in both theoretical research and teaching.

Professional Experience

Professor Yavari has held various academic positions at the University of Isfahan. He began his career as an Assistant Professor in 2005 and was promoted to Associate Professor in 2010. In 2016, he was appointed as a Professor in the Department of Physics, where he continues to lead groundbreaking research. Throughout his career, he has actively engaged in the development of advanced courses in quantum mechanics, statistical mechanics, and condensed matter physics, contributing to the education and mentorship of numerous students in the field of physics. His professional experience extends to leadership roles in scientific research and publications, further solidifying his reputation as a leading figure in theoretical physics.

Research Interests

Professor Heshmatollah Yavari’s research interests lie at the intersection of condensed matter physics and quantum mechanics. He is particularly focused on superconductivity and superfluidity, with an emphasis on understanding the fundamental properties and behaviors of quantum systems at low temperatures. His work explores Bose-Einstein condensation, strongly correlated systems, and the phenomena of topological insulators and superconductors. Additionally, Professor Yavari investigates the behavior of ultracold atomic gases in optical lattices and the exotic properties of Majorana fermions, which have implications for quantum computing and high-energy physics. He is also interested in the thermal and transport properties of superfluid systems, neutron stars, and granular electronic systems. His theoretical research contributes to advancing the understanding of quantum matter and opens new avenues in both fundamental science and applied physics.

Awards and Honors

Professor Heshmatollah Yavari has received significant recognition for his contributions to theoretical physics, particularly in the fields of superconductivity and superfluidity. His research has been widely published in international journals, highlighting his influence and expertise in condensed matter physics. Although specific awards and honors are not mentioned, the continuous progression of his academic career, from Assistant Professor to Professor at the University of Isfahan, reflects his dedication and the respect he has earned within the scientific community. Additionally, his long-standing role as a mentor and educator in various advanced physics courses demonstrates his influence in shaping future generations of physicists. His work remains integral to the development of new theoretical models and experimental investigations in quantum physics.

Publications Top Noted

  • Effects of Rashba and Dresselhaus spin-orbit couplings on the critical temperature and paramagnetic limiting field of superconductors with broken inversion symmetry
    • Authors: Yavari, H., Tayebantayeba, M.
    • Year: 2024
    • Citations: 0
  • Impurity and hybridization effects on the symmetry classification and magnetic response function of a two-band superconductor with interband pairing order
    • Authors: Renani, F.A., Yavari, H.
    • Year: 2024
    • Citations: 0
  • Three-body and Coulomb interactions in a quasi-two-dimensional dipolar Bose-condensed gas
    • Authors: Moniri, S.M., Yavari, H., Darsheshdar, E.
    • Year: 2022
    • Citations: 2
  • Effects of hybridization and spin–orbit coupling to induce odd-frequency pairing in two-band superconductors
    • Authors: Tamadonpour, M., Yavari, H.
    • Year: 2021
    • Citations: 2
  • Shear viscosity in the strong interaction regime of a p-wave superfluid Fermi gas
    • Authors: Moniri, S.M., Yavari, H., Darsheshdar, E.
    • Year: 2021
    • Citations: 0
  • Anomalous viscosity of a chiral two-orbital superconductor in tight-binding model
    • Authors: Yazdani-Hamid, M., Yavari, H.
    • Year: 2021
    • Citations: 0
  • Progress in the development and construction of high temperature superconducting magnets
    • Authors: Yavari, H.
    • Year: 2020
    • Citations: 0
  • Effects of Thermally Induced Roton-Like Excitation on the Superfluid Density of a Quasi-2D Dipolar Bose Condensed Gas
    • Authors: Yavari, H., Forouharmanesh, F.
    • Year: 2020
    • Citations: 0
  • Effect of long-range 1/ r interaction on thermal and quantum depletion of a dipolar quasi-two-dimensional Bose gas
    • Authors: Tamaddonpur, M., Yavari, H., Saeidi, Z.
    • Year: 2019
    • Citations: 2
  • Effect of long-range 1/r interaction on thermal and quantum depletion of a dipolar quasi-two-dimensional Bose gas
    • Authors: Tamaddonpur, M., Yavari, H., Saeidi, Z.
    • Year: 2019
    • Citations: 0