Saved in:
Bibliographic Details
Main Authors: Molitor, Otavio A. D., Malavazi, André H. A., Baldijão, Roberto Dobal, Orthey Jr., Alexandre C., Paiva, Ismael L., Dieguez, Pedro R.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2405.09631
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866913633676558336
author Molitor, Otavio A. D.
Malavazi, André H. A.
Baldijão, Roberto Dobal
Orthey Jr., Alexandre C.
Paiva, Ismael L.
Dieguez, Pedro R.
author_facet Molitor, Otavio A. D.
Malavazi, André H. A.
Baldijão, Roberto Dobal
Orthey Jr., Alexandre C.
Paiva, Ismael L.
Dieguez, Pedro R.
contents The superposition of causal order shows promise in various quantum technologies. However, the fragility of quantum systems arising from environmental interactions, leading to dissipative behavior and irreversibility, demands a deeper understanding of the possible instabilities in the coherent control of causal orders. In this work, we employ a collisional model to investigate the impact of an open control system on the generation of interference between two causal orders. We present the environmental instabilities for the switch of two arbitrary quantum operations and examine the influence of environmental temperature on each potential outcome of control post-selection. Additionally, we explore how environmental instabilities affect protocol performance, including switching between mutually unbiased measurement observables and refrigeration powered by causal order superposition, providing insights into broader implications.
format Preprint
id arxiv_https___arxiv_org_abs_2405_09631
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Quantum switch instabilities with an open control
Molitor, Otavio A. D.
Malavazi, André H. A.
Baldijão, Roberto Dobal
Orthey Jr., Alexandre C.
Paiva, Ismael L.
Dieguez, Pedro R.
Quantum Physics
The superposition of causal order shows promise in various quantum technologies. However, the fragility of quantum systems arising from environmental interactions, leading to dissipative behavior and irreversibility, demands a deeper understanding of the possible instabilities in the coherent control of causal orders. In this work, we employ a collisional model to investigate the impact of an open control system on the generation of interference between two causal orders. We present the environmental instabilities for the switch of two arbitrary quantum operations and examine the influence of environmental temperature on each potential outcome of control post-selection. Additionally, we explore how environmental instabilities affect protocol performance, including switching between mutually unbiased measurement observables and refrigeration powered by causal order superposition, providing insights into broader implications.
title Quantum switch instabilities with an open control
topic Quantum Physics
url https://arxiv.org/abs/2405.09631