Karl Landsteiner | Physics | Best Researcher Award

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Prof. Karl Landsteiner | Physics | Best Researcher Award

Prof. Karl Landsteiner, Consejo Superior de Investigaciones Cientificas, Spain

Prof. Karl Landsteiner is a renowned theoretical physicist at the Consejo Superior de Investigaciones Científicas in Spain. His research focuses on the application of holographic methods derived from string theory to strongly coupled quantum systems, including quark-gluon plasma and superconductivity in holographic theories. In addition to his work in holography (gauge/gravity duality), Prof. Landsteiner investigates quantum matter transport theory, particularly in topological systems such as Weyl and Dirac semimetals. His pioneering work in these areas contributes significantly to our understanding of quantum phenomena and high-energy physics.

Education:

Licenciatura/Ingeniería (Bachelor’s/Engineering)

Institution: TU-Wien (Vienna University of Technology)

Date of Completion: November 13, 1992

Doctorado (PhD)

Institution: TU-Wien (Vienna University of Technology)

Date of Completion: December 15, 1995

Thesis Director: Univ. Prof. Dipl. Ing. Dr. Manfred Schweda

Professional Profiles:

ORCID Profile

Scopus Profile

Professional Experience:

Científico Titular (Instituto de Física Teórica), Consejo Superior de Investigaciones Científicas (CSIC), Cantoblanco, Madrid, Spain

Tenure: 2003-Present

Prof. Karl Landsteiner is currently serving as Científico Titular at the Instituto de Física Teórica, part of the prestigious Consejo Superior de Investigaciones Científicas (CSIC) in Spain. His tenure at CSIC, which began in 2003, has been marked by significant contributions to theoretical physics, particularly in the areas of quantum field theory, condensed matter physics, and high-energy physics.

Research Interests:

His research focuses on the application of holographic methods derived from string theory to strongly coupled quantum systems, including quark-gluon plasma and superconductivity in holographic theories.

Top Notable Publications:

Strongly Coupled 𝒫𝒯-Symmetric Models in Holography
Journal: Entropy, 2024-12-27
DOI: 10.3390/e27010013
Contributors: Daniel Areán, David Garcia-Fariña, Karl Landsteiner

Pseudospectra of Holographic Quasinormal Modes
Journal: JHEP, 2023-12-27
DOI: 10.1007/JHEP12(2023)187
Contributors: Daniel Areán, David García Fariña, Karl Landsteiner
ARXIV: 2307.08751

Pole-Skipping as Order Parameter to Probe a Quantum Critical Point
Journal: JHEP, 2023-09-25
DOI: 10.1007/JHEP09(2023)169
Contributors: Navid Abbasi, Karl Landsteiner
ARXIV: 2307.16716

Anomalous Transport from Geometry
Journal: Physical Review D, 2023-06-06
DOI: 10.1103/PhysRevD.107.125003
Contributors: Karl Landsteiner, Sergio Morales-Tejera, Pablo Saura-Bastida

Non-Hermitian Quantum Quenches in Holography
Journal: SciPost Phys., 2023-03-10
DOI: 10.21468/SciPostPhys.14.3.030
Contributors: Sergio Morales-Tejera, Karl Landsteiner
ARXIV: 2203.02524

From PT Quantum Mechanics to PT Holography
Conference Paper: EPJ Web Conf., 2022
DOI: 10.1051/epjconf/202227000031
Contributors: Karl Landsteiner

Quantum Anomalies (in) Matter
Conference Paper: EPJ Web Conf., 2022
DOI: 10.1051/epjconf/202225810003
Contributors: Karl Landsteiner

Thermal Transport, Geometry, and Anomalies
Journal: Phys. Rep., 2022-09-12
DOI: 10.1016/j.physrep.2022.06.002
Contributors: Maxim N. Chernodub, Yago Ferreiros, Adolfo G. Grushin, Karl Landsteiner, María A.H. Vozmediano

A Holographic Superfluid Symphony
Journal: JHEP, 2021-11-26
DOI: 10.1007/JHEP11(2021)206
Contributors: Daniel Arean, Matteo Baggioli, Sebastian Grieninger, Karl Landsteiner

Is the Chiral Magnetic Effect Fast Enough?
Journal: Phys. Rev. D, 2021-08-05
DOI: 10.1103/PhysRevD.104.046009
Contributors: Jewel K. Ghosh, Sebastian Grieninger, Karl Landsteiner, Sergio Morales-Tejera

Conclusion:

Prof. Karl Landsteiner is a highly deserving candidate for the Research for Best Researcher Award. His pioneering contributions to the understanding of complex quantum systems, his extensive publication record, and his leadership in collaborative research place him at the forefront of theoretical physics. Although there are areas for improvement in terms of public outreach and experimental collaboration, his strengths in advancing the field and shaping modern physics are undeniable. Awarding him this prestigious honor would not only recognize his exceptional achievements but also inspire future generations of scientists to push the boundaries of knowledge in the pursuit of understanding the universe’s fundamental principles.

 

Gomera Biyazn | Physics | Young Scientist Award

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Mr. Gomera Biyazn | Physics | Young Scientist Award

Mr. Gomera Biyazn, Hawassa university, Ethiopia

Mr. Gomera Biyazn, a PhD candidate at Hawassa University, Ethiopia, is a promising researcher in the field of Quantum Optics with a strong academic background and significant contributions to theoretical physics.

EDUCATION:

Mr. Gomera Biyazn is a dedicated academic and researcher currently pursuing his PhD at Hawassa University, Ethiopia, in the College of Natural and Computational Sciences, Department of Physics. He holds a BSc in Physics from Debre Markos University and an MSc in Quantum Optics Physics from Hawassa University, where he graduated with a CGPA of 3.53. His impressive academic performance continued in his PhD program, where he achieved a perfect CGPA of 4.00, demonstrating his dedication and exceptional capabilities in his field.

Professional Profiles:

ORCID

Professional Experience:

Mr. Biyazn’s five years of teaching experience at Kebri Dehar University and his position as a PhD candidate at Hawassa University showcase his ability to balance teaching with advanced research. His involvement in academic committees, particularly as a Department Council member at Kebri Dehar University, also reflects his leadership skills and active participation in the academic community.

Research Interests:

Mr. Biyazn’s research interests are primarily focused on atomic and optical properties, particularly in the realm of quantum optics. His dissertation is centered on V-Type Three Level Lasers with Squeezed Light, exploring their atomic and optical characteristics. His published works, including the articles “Effects of Rabi Frequency and Initial State on V-type Three-Level Atom in Cavity” (2024) and “V-type Three Level Laser Coupled to Squeezed Vacuum Reservoir” (2021), highlight his expertise in quantum optics and laser physics. He has also co-authored research with peers such as Misrak Getahun and Takele Teshome.

Publications:

Gomera Biyazn and Misrak Getahun, “Effects of Rabi Frequency and Initial State on V-Type Three-Level Atom in Cavity,” Results in Physics (2024): 107899.

Gomera Biyazn and Misrak Getahun, “V-Type Three Level Laser Coupled to Squeezed Vacuum Reservoir,” American Science and Publishing Group, Vol. 9, 2021.

Takele Teshome, Gomera Biyazn and Misrak Getahun, “V-Type Three Level Laser Coupled to Squeezed Vacuum Reservoir,” American Science and Publishing Group, Vol. 9, 2021.

 

Conclusion:

Mr. Gomera Biyazn is a promising and accomplished researcher with a strong academic background, a solid track record in quantum optics research, and significant teaching experience. His research in the area of V-type three-level lasers holds potential for significant contributions to quantum technology. While his work is impressive, expanding his collaborations, diversifying his research interests, and increasing his publication impact will further solidify his position as a top-tier researcher in his field.He is a suitable candidate for the Best Researcher Award, with a clear trajectory toward future achievements and contributions to the scientific community.