TEPID-ADAPT: Adaptive variational thermal state preparation at low temperatures

ORAL

Abstract

Adaptive variational quantum algorithms have found a wide range of applications in physics and chemistry, especially for ground-state preparation. Quantum systems in reality are at finite temperatures, where the state of interest is the Gibbs state of the Hamiltonian. As a result, it is of great importance to develop methods to prepare Gibbs states, particularly at low temperatures. In this work, we propose a new method to prepare the thermal Gibbs state at low temperatures using a variational method that is partially adaptive and uses a minimal number of ancillary qubits.

*This work was supported by the Department of Energy Office of Science, National Quantum Information Science Research Centers, Co-design Center for Quantum Advantage (C2QA), contract number DE-SC0012704

Publication: Planned paper: TEPID-ADAPT: Adaptive variational thermal state preparation at low temperatures

Presenters

  • Bharath Sambasivam

    • Virginia Tech

Authors

  • Bharath Sambasivam

    • Virginia Tech

  • Karunya Shailesh Shirali

    • Virginia Tech

  • Kyle Sherbert

    • Virginia Tech

  • Sophia E Economou

    • Virginia Tech

  • Edwin Barnes

    • Virginia Tech

  • Nicholas J Mayhall

    • Virginia Tech