Ladislav Skrbek | Quantum Turbulence | Best Researcher Award

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Prof. Ladislav Skrbek | Quantum Turbulence | Best Researcher Award 

Professor | Charles University | Czech Republic

Prof. Ladislav Skrbek is a distinguished physicist at Charles University, Prague, Czech Republic, renowned for his pioneering research in low-temperature physics, particularly in the study of quantum fluids and cryogenic phenomena. With an extensive publication record of 188 scientific papers and over 4,999 citations across 2,451 documents, Dr. Skrbek has made substantial contributions to advancing the understanding of superfluid helium, quantum turbulence, and cryogenic flow dynamics—areas fundamental to both fundamental physics and applied cryogenics. Holding a Scopus h-index of 35, his work reflects both depth and sustained influence in experimental and theoretical physics communities worldwide. Throughout his career, Dr. Skrbek has collaborated with over 185 co-authors across international institutions, emphasizing his strong engagement in global scientific exchange and interdisciplinary research. His studies have provided key insights into the dynamics of vortices and energy dissipation at ultra-low temperatures, contributing to the development of quantum fluid models that influence modern cryogenic engineering and condensed matter physics. Beyond his academic output, Dr. Skrbek’s research has broader societal implications, informing technologies used in cryogenic cooling systems, superconductivity, and quantum computing infrastructure. As a leading scholar in his field, he continues to inspire innovation and collaboration in low-temperature science, strengthening the role of fundamental research in addressing technological challenges and expanding the frontiers of modern physics.

Profiles: Scopus | ORCID

Featured Publications

1. Duda, D., La Mantia, M., & Skrbek, L. (2017). Streaming flow due to a quartz tuning fork oscillating in normal and superfluid He 4. Physical Review B, 96, 024519.  Cited by: 18.

2. Šindler, M., Tesař, R., Koláček, J., & Skrbek, L. (2017). Anisotropic behaviour of transmission through thin superconducting NbN film in parallel magnetic field. Physica C: Superconductivity and its Applications.  Cited by: 5.

3. Varga, E., Babuin, S., L’vov, V. S., Pomyalov, A., & Skrbek, L. (2017). Transition to quantum turbulence and streamwise inhomogeneity of vortex tangle in thermal counterflow. Journal of Low Temperature Physics, 187(5–6), 497–503.

4. Babuin, S., L’vov, V. S., Pomyalov, A., Skrbek, L., & Varga, E. (2016). Coexistence and interplay of quantum and classical turbulence in superfluid He 4: Decay, velocity decoupling, and counterflow energy spectra. Physical Review B, 94(17), 174504.

5. Gao, J., Guo, W., L’vov, V. S., Pomyalov, A., Skrbek, L., Varga, E., & Vinen, W. F. (2016). Decay of counterflow turbulence in superfluid ⁴He. JETP Letters, 103(10), 648–653.

Prof. Ladislav Skrbek’s pioneering research in low-temperature physics and quantum turbulence has profoundly advanced the understanding of superfluidity and quantum hydrodynamics. His contributions bridge fundamental science and applied cryogenics, shaping innovations that influence both theoretical physics and precision technologies worldwide.

Peeyush Kamlesh | Physics | Best Researcher Award

Published on by Cryogenicist

Dr. Peeyush Kamlesh | Physics | Best Researcher Award

Associate Professor | Poornima University | India

Dr. Peeyush Kumar Kamlesh is an accomplished Associate Professor in the Department of Physics and R&D at Poornima University, Jaipur, specializing in Condensed Matter Physics and advanced materials such as Half-Heusler alloys, hybrid and double perovskites, and antiperovskites. He holds a Ph.D. in Physics from Banasthali Vidyapith, with prior degrees in Physics and Mathematics from M. J. P. Rohilkhand University and Hindu College, respectively. With extensive teaching and research experience in higher education, Dr. Kamlesh has contributed significantly to academic and institutional growth through leadership roles such as In-Charge of the Centre for Research, Instrumentation & Development and Associate Dean of Basic and Applied Sciences. His prolific research output includes over thirty peer-reviewed papers in SCI and Scopus-indexed journals, multiple book chapters, patents, and conference presentations, demonstrating expertise in computational materials science and renewable energy applications. As Managing Editor of several scientific journals and reviewer for high-impact publications including Journal of Rare Earths, Materials Today Chemistry, and Scientific Reports, he actively fosters scholarly communication and academic integrity. Dr. Kamlesh has organized international conferences, faculty development programs, and workshops on research methodology, strengthening research capacity among scholars. His honors include the Young Scientist Award and numerous editorial and professional memberships. A dedicated researcher and educator, Dr. Kamlesh continues to advance material science research and innovation through academic excellence and mentorship, with 1,287 citations, 33 documents, and an h-index of 26 reflecting his strong research impact.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

Kumari, S., Kamlesh, P. K., Kumari, L., Kumar, S., Kumari, S., Singh, R., Gupta, R., … (2023). Progress in theoretical study of lead-free halide double perovskite Na₂AgSbX₆ (X = F, Cl, Br, and I) thermoelectric materials. Journal of Molecular Modeling, 29(6), 195.

Kamlesh, P. K., Gautam, R., Kumari, S., & Verma, A. S. (2021). Investigation of inherent properties of XScZ (X = Li, Na, K; Z = C, Si, Ge) half-Heusler compounds: Appropriate for photovoltaic and thermoelectric applications. Physica B: Condensed Matter, 615, 412536.

Rani, U., Kamlesh, P. K., Agrawal, R., Shukla, A., & Verma, A. S. (2022). Emerging study on lead-free hybrid double perovskite (CH₃NH₃)₂AgInBr₆: Potential material for energy conversion between heat and electricity. Energy Technology, 10(9), 2200002.

Rani, M., Kamlesh, P. K., Kumawat, S., Rani, U., Arora, G., & Verma, A. S. (2023). Ab-initio calculations of structural, optoelectronic, thermoelectric, and thermodynamic properties of mixed-halide perovskites RbPbBr₃−xIₓ (x = 0 to 3): Applicable in renewable energy devices. ECS Journal of Solid State Science and Technology, 12(8), 083006.

Rani, U., Kamlesh, P. K., Singh, R., Kumar, T., Gupta, R., Al-Qaisi, S., Kaur, K., … (2024). Exploring properties of organometallic double perovskite (CH₃NH₃)₂AgInCl₆: A novel material for energy conversion devices. Modern Physics Letters B, 38(18), 2450144.