VinayTProfile

People

Vinay Tripathi

Vinay Tripathi joined Professor Lidar’s group in Fall 2019 as a Physics Ph.D. student at USC. Vinay has a bachelor’s degree in Physics from Hansraj College, University of Delhi and a master’s degree in Physics from Indian Institute of Technology Delhi. He also has a master’s degree in Electrical Engineering from UC Riverside where he worked on cross-resonance gate (a two-qubit entangling gate) under the supervision of Professor Alexander Korotkov. His current research interests include decoherence in superconducting flux qubits, open quantum systems and its applications in quantum computation. .

Room: SSC 611
Email: V I N A Y T R I AT U S C DOT E D U

Peer Reviewed Publications

  • 3. “Modeling low- and high-frequency noise in transmon qubits with resource-efficient measurement”, PRX Quantum 5, 010320 (2024), by V. Tripathi, H. Chen, E. M. Levenson-Falk and D. A. Lidar [link]
  • 2. “Suppression of crosstalk in superconducting qubits using dynamical decoupling”, Phys. Rev. Applied 18, 024068 (2022), by V. Tripathi, H. Chen, M. Khezri, Ka-Wa Yip, E. M. Levenson-Falk, D. A. Lidar [link]
  • 1. “Operation and intrinsic error budget of a two-qubit cross-resonance gate”, Phys. Rev. A 100, 012301 (2019), by V. Tripathi, M. Khezri, A. N. Korotkov [link]

Preprints

  • 5. “Quantum Fourier Transform using Dynamic Circuits”, [2403.09514] by E. Bäumer, V. Tripathi, A. Seif, D. A. Lidar, D. S. Wang.
  • 4. “Suppressing Correlated Noise in Quantum Computers via Context-Aware Compiling”, [2403.06852] by A. Seif, H. Liao, V. Tripathi, K. Krsulich, M. Malekakhlagh, M. Amico, P. Jurcevic and A. Javadi-Abhari.
  • 3. “Dynamically Generated Decoherence-Free Subspaces and Subsystems on Superconducting Qubits”, [2402.07278] by G. Quiroz, B. Pokharel, J. Boen, L. Tewala, V. Tripathi, D. Williams, L. Wu, P. Titum, K. Schultz, and D. A. Lidar.
  • 2. “Error budget of parametric resonance entangling gate with a tunable coupler”, [2402.04238] by E. A. Sete, V. Tripathi, J. A. Valery, D. A. Lidar, and J. Y. Mutus.
  • 1. “Efficient Long-Range Entanglement using Dynamic Circuits”, [2308.13065] by E. Bäumer, V. Tripathi, D. S. Wang, P. Rall, E. H. Chen, S. Majumder, A. Seif, and Z. K. Minev.