Communication with a demountable quantum bus part 2: Entanglement via reservoir engineering

Nathanael Cottet; James Teoh; Luke D Burkhart; Luigi Frunzio; Michel Devoret; Robert J Schoelkopf

Communication with a demountable quantum bus part 2: Entanglement via reservoir engineering

ORAL

Abstract

Most quantum communication implementations rely on exchanging photonic states across a network and suffer from photon loss in the links coupling the modules. Surprisingly, if the communication channel can be treated as a single lossy stationary mode, reservoir engineering can be used for entanglement generation. We report on an experiment that demonstrates this approach by symmetrically coupling two modules to a coaxial cable acting as a shared reservoir. This allows us to engineer an effective non-local dissipation on two bosonic qubits housed in separable 3D cavity modules that can be used for entanglement generation. Combining this with additional local stabilization of the qubit manifolds enables us to deterministically generate a Bell pair.

^*AFOSR

March 19, 2021, 11:42 AM – March 19, 2021, 11:54 AM

Presenters

Nathanael Cottet
- Yale University
- Physics, Yale University
- Ecole Normale Superieure de Lyon

Authors

Nathanael Cottet
- Yale University
- Physics, Yale University
- Ecole Normale Superieure de Lyon
James Teoh
- Yale University
Luke D Burkhart
- Yale University
Luigi Frunzio
- Applied Physics Department, Yale University
- Yale University
- Applied Physics, Yale University
- Department of Applied Physics and Physics, Yale University
Michel Devoret
- Yale University
- Applied Physics Department, Yale University
- Yale
- Department of Applied Physics and Physics, Yale University
- Applied Physics, Yale University
- Departments of Applied Physics and Physics, Yale University
Robert J Schoelkopf
- Yale University
- Applied Physics, Yale University
- Department of Applied Physics and Physics, Yale University