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  • Nguyen Van Duy, Ph.D.

Nguyen Van Duy, Ph.D.

Nguyen Van Duy, Ph.D.

Lecturer
  • Ph.D. (Physics Grenoble-Alpes, France, 2018)
  • M.Sc. (Material Sciecne, University of Science and Technology of Hanoi, 2014)
  • B.Sc. (Physics, Hanoi National University of Education, 2011)
CONTACT:

Nguyen Van Duy

RESEARCH INTERESTS

  • Quantum Computing using Superconducting Qubits
  • Electronic, Transport, and Optical Properties of 2D Materials
  • Machine Learning for Quantum Computing

SELECTED PUBLICATIONS

  • Hoang Anh Le, Van Thuong Nguyen, Van Duy Nguyen, Van-Nam Do, Si Ta Ho (2019). Real-Space Approach for the Electronic Calculation of Twisted Bilayer Graphene Using the Orthogonal Polynomial Technique. Communications in Physics, Volume 29, pp 455.
  • Long T. Nguyen, Tuan K. Do, Duy V. Nguyen, Trung V. Phan (2022). On the Electrostatic Interaction between Point Charges due to Dielectrical Shielding. Progress In Electromagnetics Research Letters. Volume 107, pp 111-118.
  • Duc M. Tran, Duy V. Nguyen, Bin Ho Le, Hung Q. Nguyen (2022). Experimenting quantum phenomena on NISQ computers using high level quantum programming. EPJ Quantum Technology. Volume 9.
  • Sy-Ta Ho, Hoang Anh Le, Van Duy Nguyen, Van-Nam Do (2020). Electronic properties of slid bilayer graphene: effective models in low energy range. European Physical Journal B. Volume 93.
  • V. Nam Do, H. Anh Le, V. Duy Nguyen, D. Bercioux (2020). Optical Hall response of bilayer graphene: Manifestation of chiral hybridized states in broken mirror symmetry lattices. Physical Review Research.
  • Pham Tien Lam, Nguyen Van Duy, Nguyen Tien Cuong (2020). Machine Learning Representation for Atomic Forces and Energies, Volume 36.
  • Yu. Krupko, V. D. Nguyen, T. Weißl, É. Dumur, J. Puertas, R. Dassonneville, C. Naud, F. W. J. Hekking, D. M. Basko, O. Buisson, N. Roch, W. Hasch-Guichard (2018). Kerr nonlinearity in a superconducting Josephson metamaterial, Physical Review B, Volume 98.
  • D. V. Nguyen, G. Catelani, D. M. Basko (2017). Dissipation in a superconducting artificial atom due to a single nonequilibrium quasiparticle. Physical Review B. Volume 96.
  • D. V. Nguyen, D. M. Basko (2017). Inhomogeneous Josephson junction chains: a superconducting meta-material for superinductance optimization. European Physical Journal: Special Topics. Volume 226, pp 1499-1514.

AWARDS & HONOURS

TEACHING COURSES

  • Introduction to Data Science and Artificial Intelligence
  • Introduction to Information Technology
  • Data Structures and Algorithms
  • Introduction to Quantum Computing