Adiabaticity in non-Hermitian dynamics of a superconducting qubit

ORAL

Abstract

In general, a quantum system subject to slow parameter variation will closely follow its instantaneous eigenstates. This well-known adiabatic theorem, however, has been shown to break down in recent studies of open systems with gain or loss. Such systems are effectively described by non-Hermitian Hamiltonians and thus possess complex eigenvalues and nonorthogonal eigenstates. In this talk, I will present our study of adiabaticity in non-Hermitian dynamics of a single dissipative superconducting qubit, where we tune the frequency and amplitude of microwave drives to vary the system Hamiltonian. The resulting dynamics is determined by the nonadiabatic coupling between eigenstates as well as their complex-eigenvalue-induced growth or decay. Our understanding of adiabaticity in the presence of complex eigenvalues will be important in harnessing non-Hermiticities for quantum sensing and control.

*This work was supported by NSF Grant PHY-1607156 and PHY-1752844 (CAREER), and NSF Grant DMR-1054020 (CAREER). W. Chen acknowledges the support from Center for Quantum Sensors at Washington University.

Presenters

  • Weijian Chen

    • physics, Washington University, St. Louis
    • Physics, Washington University, St. Louis

Authors

  • Weijian Chen

    • physics, Washington University, St. Louis
    • Physics, Washington University, St. Louis

  • Maryam Abbasi

    • Washington University, St. Louis
    • physics, Washington University, St. Louis
    • Physics, Washington University, St. Louis

  • Mahdi Naghiloo

    • Massachusetts Institute of Technology MIT
    • Electrical engineering and computer science, Massachusetts Institute of Technology MIT
    • Electrical Engineering & Computer Science, Massachusetts Institute of Technology

  • Yogesh Joglekar

    • Indiana University - Purdue University Indianapolis
    • physics, Indiana University - Purdue University Indianapolis
    • Physics, Indiana University - Purdue University Indianapolis

  • Kater Murch

    • Washington University, St. Louis
    • Department of Physics, Washington University in St. Louis
    • physics, Washington University, St. Louis
    • Physics, Washington University, St. Louis
    • Department of Physics, Washington Univeristy, St. Louis