Saved in:
Bibliographic Details
Main Authors: Marquet, Antoine, Dupouy, Simon, Réglade, Ulysse, Essig, Antoine, Cohen, Joachim, Albertinale, Emanuele, Bienfait, Audrey, Peronnin, Théau, Jezouin, Sébastien, Lescanne, Raphaël, Huard, Benjamin
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2403.07744
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866916407904567296
author Marquet, Antoine
Dupouy, Simon
Réglade, Ulysse
Essig, Antoine
Cohen, Joachim
Albertinale, Emanuele
Bienfait, Audrey
Peronnin, Théau
Jezouin, Sébastien
Lescanne, Raphaël
Huard, Benjamin
author_facet Marquet, Antoine
Dupouy, Simon
Réglade, Ulysse
Essig, Antoine
Cohen, Joachim
Albertinale, Emanuele
Bienfait, Audrey
Peronnin, Théau
Jezouin, Sébastien
Lescanne, Raphaël
Huard, Benjamin
contents Dissipation engineering offers a powerful tool for quantum technologies. Recently, new superconducting devices have achieved an engineered two-photon dissipation rate exceeding all other relevant timescales. In particular, they have proven most useful in preventing transitions between the logical states $|\pmα\rangle$ of a cat qubit. Here, we present three key applications of strong two-photon dissipation for quantum measurement and control, beyond cat qubit stabilization. Firstly, we demonstrate its efficacy in overcoming limitations encountered in Wigner tomography at high photon numbers. Secondly, we showcase its potential for realizing universal gates on cat qubits, exploiting the coherent mapping between cat qubit states and superpositions of 0 and 1 photons. Finally, we harness the transient dynamics of a cat state under two-photon dissipation to prepare squeezed cat states with a squeezing factor exceeding 3.96$\pm$0.07 dB.
format Preprint
id arxiv_https___arxiv_org_abs_2403_07744
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Harnessing two-photon dissipation for enhanced quantum measurement and control
Marquet, Antoine
Dupouy, Simon
Réglade, Ulysse
Essig, Antoine
Cohen, Joachim
Albertinale, Emanuele
Bienfait, Audrey
Peronnin, Théau
Jezouin, Sébastien
Lescanne, Raphaël
Huard, Benjamin
Quantum Physics
Dissipation engineering offers a powerful tool for quantum technologies. Recently, new superconducting devices have achieved an engineered two-photon dissipation rate exceeding all other relevant timescales. In particular, they have proven most useful in preventing transitions between the logical states $|\pmα\rangle$ of a cat qubit. Here, we present three key applications of strong two-photon dissipation for quantum measurement and control, beyond cat qubit stabilization. Firstly, we demonstrate its efficacy in overcoming limitations encountered in Wigner tomography at high photon numbers. Secondly, we showcase its potential for realizing universal gates on cat qubits, exploiting the coherent mapping between cat qubit states and superpositions of 0 and 1 photons. Finally, we harness the transient dynamics of a cat state under two-photon dissipation to prepare squeezed cat states with a squeezing factor exceeding 3.96$\pm$0.07 dB.
title Harnessing two-photon dissipation for enhanced quantum measurement and control
topic Quantum Physics
url https://arxiv.org/abs/2403.07744