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

Prof. Dr. Gabriel Gustavo Carlo | Researcher | National Scientific and Technical Research Council | Argentina

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.

Awards & Recognition

He has been recognized as an outstanding referee for the Physical Review journals, reflecting his expertise and reputation in evaluating cutting-edge research in physics.

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.

Profile

Scopus | ORCID | Google Scholar

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. Thu Ha Dao | quantum computation | Best Researcher Award

postdoc, Istituto Nazionale di Fisica Nucleare – Sezione di Roma Tor Vergata, Italy

🌟 Thu Ha Dao is a dedicated researcher specializing in silicon photonics and quantum technologies. Originally from Vietnam, she has gained extensive international experience through her academic journey and professional roles across Italy, Canada, and beyond. Her work focuses on advanced photonic integrated circuits (PIC) and cutting-edge applications in quantum computation. With numerous publications and active participation in international conferences, Thu Ha Dao is making a significant impact in the fields of industrial engineering and photonics.

Education

🎓 Thu Ha Dao holds a Bachelor’s degree in Physical Sciences from Hanoi University of Science (2012–2016) 🇻🇳. She completed her Master of Physics at the University of Camerino, Italy (2016–2019) 🇮🇹, focusing on spectroscopic modifications of nanoparticles for battery cathodes. She further advanced her expertise with a Ph.D. in Industrial Engineering at the University of Rome Tor Vergata (2020–2023) 🇮🇹, with a thesis on silicon photonics integrated circuits for quantum computation.

Experience

💼 Thu Ha has worked in prominent research roles, including as a researcher at Tor Vergata University, Italy, where she contributed to the NARAs project on nanotechnology applications in water arsenic detection. Currently, she serves as a PostDoc Researcher at INFN sezione Roma Tor Vergata, contributing to the QUANTEP project. Her expertise spans silicon photonics, quantum platforms, spectroscopic ellipsometry, and PIC design using Python and IPKISS.

Awards and Honors

🏆 Thu Ha has been an invited speaker and active contributor to prestigious conferences such as the Italian Physical Society Congress and the Global Congress on Materials Science and Nanotechnology. Her research excellence is reflected in her publications in top-tier journals like Photonics and Optics Communications.

Research Focus

🔬 Thu Ha’s research centers on the integration of nanotechnology, photonics, and quantum computing. She is particularly interested in designing photonic integrated chips, exploring polarization control in graphene-silicon waveguides, and advancing single-photon detectors. Her contributions aim to revolutionize quantum technologies through innovative engineering solutions.

Conclusion

🌍 With her international background, strong academic foundation, and impactful research, Thu Ha Dao stands at the forefront of silicon photonics and quantum technologies. Her dedication to advancing science and engineering inspires her peers and contributes significantly to the global scientific community.