Quantum simulation of a general anti-PT-symmetric Hamiltonian with a
trapped ion qubit
- URL: http://arxiv.org/abs/2203.01486v2
- Date: Tue, 15 Mar 2022 08:52:09 GMT
- Title: Quantum simulation of a general anti-PT-symmetric Hamiltonian with a
trapped ion qubit
- Authors: Ji Bian, Pengfei Lu, Teng Liu, Hao Wu, Xinxin Rao, Kunxu Wang, Qifeng
Lao, Yang Liu, Feng Zhu, Le Luo
- Abstract summary: We implement an anti-PT -symmetric Hamiltonian of a single qubit in a single trapped ion by a designed microwave and optical control-pulse sequence.
Our work allows quantum simulation of genuine open-system feature of an anti-PT-symmetric system.
- Score: 8.540612560553887
- License: http://creativecommons.org/licenses/by-nc-nd/4.0/
- Abstract: Non-Hermitian systems satisfying parity-time (PT) symmetry have aroused
considerable interest owing to their exotic features. Anti-PT symmetry is an
important counterpart of the PT symmetry, and has been studied in various
classical systems. Although a Hamiltonian with anti-PT symmetry only differs
from its PT-symmetric counterpart in a global $\pm$ i phase, the ways they
change information and energy with the enivronment are completely different,
suggesting an essential different dynamics in anti-PT-symmetric systems from
their PT -symmetric variants. Moreover, theortical works have shown that qubits
with anti-PT-symmetric Hamiltonians (anti-PT-symmetric qubits) have superior
decoherence properties over Hermitian qubits, as well as PT-symmetric ones. So
far, the observation of anti-PT symmetry in individual quantum systems remains
elusive. Here, we implement an anti-PT -symmetric Hamiltonian of a single qubit
in a single trapped ion by a designed microwave and optical control-pulse
sequence. We characterize the anti-PT phase transition by mapping out the
eigenvalues at different dissipation rates. The full inforamtion of the quantum
state is also obtained by quantum state tomography. Our work allows quantum
simulation of genuine open-system feature of an anti-PT-symmetric system, which
paves the way for utilizing non-Hermitian properties for quantum information
processing.
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