Liouvillian exceptional points and their relation to non-Hermitian Hamiltonians and quantum trajectories

Fabrizio Minganti; Adam Miranowicz; Ravindra W. Chhajlany; Ievgen Arkhipov; Franco Nori

Liouvillian exceptional points and their relation to non-Hermitian Hamiltonians and quantum trajectories

ORAL

Abstract

Exceptional points (EPs) are spectral degeneracies of open systems that are attracting much interest in optics, plasmonics, and condensed matter physics. In the classical and semiclassical approaches, Hamiltonian EPs (HEPs) are degeneracies of non-Hermitian Hamiltonians such that at least two eigenfrequencies and the corresponding eigenstates coalesce. We argue that quantum jumps should be included in a fully quantum approach, e.g., that of the Lindblad master-equation approach. Thus, we define EPs via degeneracies of a Liouvillian superoperator (including quantum jumps, LEPs), and we clarify the relations between HEPs and LEPs [1]. The Liouvillian approach can be easily generalized to account for postselection of certain quantum jump trajectories [2]. The resulting hybrid-Liouvillian superoperator describes a new type of EPs, and can characterize experiments in the presence of finite-efficiency detectors[3].

[1] F. Minganti, A. Miranowicz, R. W. Chhajlany & F. Nori, Phys. Rev. A 100, 062131 (2019)
[2] M. Naghiloo, M. Abbasi, Yogesh N. Joglekar & K. W. Murch, Nat. Phys. 15, 1232 (2019)
[3] F. Minganti, A. Miranowicz, R. W. Chhajlany, Ievgen I. Arkhipov & F. Nori, Phys. Rev. A 101, 062112 (2020)

March 15, 2021, 10:24 AM – March 15, 2021, 10:36 AM

Presenters

Fabrizio Minganti

RIKEN, Japan

Authors

Fabrizio Minganti

RIKEN, Japan
Adam Miranowicz

RIKEN and Adam Mickiewicz Univ., Adam Mickiewicz University, RIKEN, Japan; Adam Mickiewicz Univ., Poland, RIKEN, Japan; Adam Mickiewicz Uni., Poland
Ravindra W. Chhajlany

RIKEN, Japan; Adam Mickiewicz Uni., Poland
Ievgen Arkhipov

Palacky Univ., Czech Republic, Palacky Uni., Czech Republic
Franco Nori

RIKEN, Japan and Univ. Michigan, USA, RIKEN, Japan, RIKEN; and Univ. Michigan., RIKEN, Japan; and Univ. Michigan, USA, Riken Japan and Univ. Michigan USA, RIKEN, Japan and Univ Michigan, USA, Theoretical Quantum Physics Laboratory, Department of Physics, RIKEN Cluster for Pioneering Research, The University of Michigan, RIKEN and Univ. of Michigan, Riken Japan and Univ Michigan USA, RIKEN; and University of Michigan, RIKEN and Univ. Michigan, RIKEN and Univ of Michigan, Theoretical Quantum Physics Laboratory, RIKEN Cluster for Pioneering Research, Wako-shi, Saitama 351-0198, Japan, RIKEN, and University of Michigan, Theoretical Quantum Physics, Riken, Japan, RIKEN, Japan; and Univ Michigan, USA, Theoretical Quantum Physics Laboratory, RIKEN, RIKEN, Japan; Univ. Michigan, USA, RIKEN, Japan; Uni. Michigan, USA