Saved in:
Bibliographic Details
Main Authors: Pan, Qiying, Li, Fuhua, Zou, Hong-Mei, Liang, Zijin
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2501.11010
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866909756284731392
author Pan, Qiying
Li, Fuhua
Zou, Hong-Mei
Liang, Zijin
author_facet Pan, Qiying
Li, Fuhua
Zou, Hong-Mei
Liang, Zijin
contents In this work, an interactive system composed of a V-type atom and a dissipative single-mode cavity is considered and the atomic quantum coherences are investigated under parameters including spontaneously generated interference (SGI), cavity-environment coupling, weak measurement and its reversal, and detuning between the atom and the cavity. The results indicate that, the strong coupling can induce coherence sudden death (CSD) and coherence sudden birth (CSB), and the non-zero SGI parameter only induces CSB but the detuning may avoid CSD and CSB. Moreover, detuning and weak measurement reversal can very effectively protect quantum coherence, while the SGI parameter, weak measurement, and strong coupling can accelerate its attenuation. The SGI parameter, detuning, weak measurement reversal, and strong coupling all promote the generation of coherence, whereas weak measurement alone can suppress it. In particular, the maximal coherent state can be very effectively protected and the coherent state can be prepared if all parameters are selected appropriately. Physical interpretations are also provided for these results.
format Preprint
id arxiv_https___arxiv_org_abs_2501_11010
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Controlling Quantum Coherence of V-type Atom in Dissipative Cavity by Detuning and Weak Measurement Reversal
Pan, Qiying
Li, Fuhua
Zou, Hong-Mei
Liang, Zijin
Quantum Physics
In this work, an interactive system composed of a V-type atom and a dissipative single-mode cavity is considered and the atomic quantum coherences are investigated under parameters including spontaneously generated interference (SGI), cavity-environment coupling, weak measurement and its reversal, and detuning between the atom and the cavity. The results indicate that, the strong coupling can induce coherence sudden death (CSD) and coherence sudden birth (CSB), and the non-zero SGI parameter only induces CSB but the detuning may avoid CSD and CSB. Moreover, detuning and weak measurement reversal can very effectively protect quantum coherence, while the SGI parameter, weak measurement, and strong coupling can accelerate its attenuation. The SGI parameter, detuning, weak measurement reversal, and strong coupling all promote the generation of coherence, whereas weak measurement alone can suppress it. In particular, the maximal coherent state can be very effectively protected and the coherent state can be prepared if all parameters are selected appropriately. Physical interpretations are also provided for these results.
title Controlling Quantum Coherence of V-type Atom in Dissipative Cavity by Detuning and Weak Measurement Reversal
topic Quantum Physics
url https://arxiv.org/abs/2501.11010