Academic Background

Gabriel Gustavo Carlo holds a Doctorate in Physics and a Licentiate in Physics from the University of Buenos Aires. His academic journey reflects a deep commitment to both theoretical and applied aspects of quantum mechanics and complex systems. According to Scopus, he has contributed to over 50 documents, which have been cited by more than 500 works, reflecting his significant presence in the scientific community. His h-index on Scopus stands at eighteen, demonstrating consistent scholarly impact, while his Google Scholar profile reports over 700 citations, a cumulative h-index of 20, and an i10-index of 35, underscoring his influence and visibility in the field.

Research Focus

Carlo’s research centers on quantum chaos, dissipative systems, and the interplay between classical and quantum dynamics. He explores quantum computation, quantum reservoir computing, and the role of noise in enhancing quantum algorithms. His work aims to bridge foundational theory with practical computational applications, emphasizing the optimization of quantum circuits and the understanding of complex behaviors in open quantum systems.

Work Experience

He currently serves as an independent researcher at the National Scientific and Technical Research Council (CONICET), associated with the TANDAR Laboratory in Buenos Aires. Carlo has held teaching positions at multiple institutions, including the University of Buenos Aires, National University of Quilmes, Favaloro University, and the National University of General San Martín, where he continues to guide and mentor graduate and undergraduate students. His career reflects a combination of research leadership, project management, and pedagogy.

Key Contributions

Carlo has directed numerous doctoral and undergraduate theses, fostering the development of new talent in the fields of quantum physics and complex systems. His studies have introduced methods for analyzing quantum dissipative systems, optimal parameterized quantum circuits, and the use of machine learning to explore quantum localization. He has significantly contributed to understanding the correspondence between classical and quantum dynamics and the role of environmental effects in quantum systems.

Professional Roles & Memberships

Carlo actively participates in the international scientific community as a referee for leading journals including Physical Review, Physical Review Letters, Scientific Reports, and Chaos. He serves on editorial and reviewer boards for journals such as Entropy and contributes to Mathematical Reviews. Additionally, he has organized international workshops and seminars on quantum chaos, fostering collaboration across institutions in Europe and Latin America.

Featured Publications

Bergamasco, P. D., Carlo, G. G., & Rivas, A. M. F. Spectral truncation of out-of-time-ordered correlators in dissipative systems. Physical Review E, 112, 034201.

Rivas, A. M. F., Vergini, E. G., Ermann, L., & Carlo, G. G. Ideal gas law for a quantum particle. Physical Review E, 112, 014223.

Montes, J., Borondo, F., & Carlo, G. G. Optimal multicore quantum computing with few interconnects. APL Quantum, 2, 026104.

Domingo, L., Grande, M., Carlo, G., Borondo, F., & Borondo, J. Optimal quantum reservoir computing for market forecasting. arXiv:2401.03347.

Correr, G. I., Azado, P. C., Soares-Pinto, D. O., & Carlo, G. Optimal complexity of parameterized quantum circuits. arXiv:2405.19537.

Impact Statement / Vision

Carlo envisions advancing the field of quantum technologies by integrating foundational physics with practical computational strategies. His work aims to optimize quantum computation under realistic conditions and provide frameworks for understanding complex quantum systems, bridging theory and application to address future challenges in science and technology.

Dr. Corey Trahan | Quantum Science | Best Researcher Award

Physicist, United States Army Corps of Engineers, United States

Corey Jason Trahan, Ph.D. is a distinguished Research Physicist at the US Army Corps of Engineers, Engineering Research and Development Center (ERDC), Information Technology Laboratory, and a Lecturer at the University of Texas in Austin. With a Ph.D. in Theoretical Chemistry from UT Austin, Dr. Trahan specializes in applied mathematics, computational mechanics, and fluid dynamics. His career includes roles at various prestigious institutions, focusing on high-performance computing and innovative software design. In addition to his research, Dr. Trahan has contributed to numerous publications and has been recognized with several awards for his impactful work. 🏆🔬

Publication Profile

Scopus
ORCID

Strengths for the Award:

Diverse Expertise: Dr. Corey J. Trahan’s research spans a wide range of cutting-edge fields, including applied mathematics, computational mechanics, fluid dynamics, and quantum physics. His ability to work across various domains, including high-performance computing and uncertainty quantification, demonstrates a high level of versatility and expertise.
Extensive Experience: With a robust background in both academic and practical applications, Dr. Trahan has significant experience in innovative research and software design. His current role as a Research Physicist at USACE-ERDC and his role as a Lecturer at the University of Texas showcase his dual commitment to research and education.
Notable Publications: Dr. Trahan has published extensively in reputable journals and conferences, demonstrating a strong record of scholarly contributions. His work covers a broad spectrum of topics, including quantum dynamics, fluid dynamics, and computational methods.
Awards and Honors: His receipt of several prestigious awards, including the USACE-ERDC Research and Development Achievement Award and the Civilian Service Commendation Medal, underscores his significant impact and recognition in his field.
Innovative Contributions: Dr. Trahan’s involvement in developing advanced numerical models and software for solving complex scientific problems, such as partial differential equations and adaptive hydraulics, highlights his contributions to both theoretical and applied research.

Areas for Improvement:

Broader Impact and Outreach: While Dr. Trahan has an impressive academic and research portfolio, increasing visibility through broader outreach activities, such as public lectures or collaborations with industry stakeholders, could further enhance his impact.
Diverse Research Areas: Expanding into emerging research areas or interdisciplinary fields might offer additional opportunities for innovation and influence, particularly in integrating new technologies or methodologies into his work.
Collaborative Projects: Increasing participation in collaborative projects with international researchers or industry partners could further broaden the scope and application of his research.

Conclusion:

Dr. Corey J. Trahan is a highly qualified candidate for the Research for Best Researcher Award. His extensive expertise in multiple scientific disciplines, significant contributions to both theoretical and practical aspects of research, and recognition through prestigious awards make him an exemplary candidate. His continued focus on innovative research and his dual role in academia and applied research demonstrate a profound commitment to advancing knowledge and solving complex problems. While there are opportunities for expanding his outreach and collaborative efforts, Dr. Trahan’s achievements and ongoing contributions strongly support his suitability for this award.

Education

Dr. Trahan earned his Ph.D. in Theoretical Chemistry from the University of Texas in Austin in 2003. He also holds dual B.S. degrees in Physics and Chemistry from Lamar University, both completed in 1999. His academic background underpins his expertise in computational mechanics and quantum physics. 🎓📚

Professional Experience

Dr. Trahan has extensive experience in computational research and software design. He has been a Research Physicist at USACE-ERDC since 2013, where he focuses on solving partial differential equations and uncertainty quantification. He also serves as an Adjunct Professor at the University of Texas in Austin, teaching advanced scientific computing. His previous roles include postdoctoral fellowships and positions at High Performance Technologies and Sight Software, where he contributed to the development of advanced computational methods and software. 💼🔍

Research Focus

Dr. Trahan’s research interests span applied mathematics, computational mechanics, fluid dynamics, and uncertainty quantification. He is also deeply involved in quantum physics, computer science, and high-performance computing. His work includes developing innovative solutions for partial differential equations, finite element methods, and applications in computational fluid dynamics. 🔎💻

Awards

Dr. Trahan has been recognized with several prestigious awards, including the Laboratory University Collaboration Initiative Award for fostering collaboration between DoD lab scientists and academics, the USACE-ERDC Research and Development Achievement Award in Spring 2022, and the USACE-ERDC Award for Outstanding Team Effort in Spring 2020. 🏅🎖️

Publication Top Notes

Quantum Physics-Informed Neural Networks

A Variational Quantum Linear Solver Application to Discrete Finite-Element Methods

Urban and overland flow modeling with dynamic adaptive mesh and implicit diffusive wave equation solver

Prof. Dr. Gabriel Gustavo Carlo | Quantum Science | Best Researcher Award

Prof. Dr. Gabriel Gustavo Carlo | Quantum Science | Best Researcher Award

Academic Background

Research Focus

Work Experience

Key Contributions

Awards & Recognition

Professional Roles & Memberships

Profile

Featured Publications

Impact Statement / Vision

Corey Trahan | Quantum Science | Best Researcher Award

Dr. Corey Trahan | Quantum Science | Best Researcher Award

Publication Profile

Strengths for the Award:

Areas for Improvement:

Conclusion:

Education

Professional Experience

Research Focus

Awards

Publication Top Notes

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