Confining the state of light to a quantum manifold by engineered two-photon loss

Leghtas, Zaki; Touzard, Steven; Pop, Ioan M.; Kou, Angela; Vlastakis, Brian; Petrenko, Andrei; Sliwa, Katrina; Narla, A.; Shankar, Shyam; Hatridge, Michael; Reagor, Matthew J.; Frunzio, Luigi; Schoelkopf, Robert; Mirrahimi, Mazyar; Devoret, Michel

doi:10.1126/science.aaa2085

articleScienceFeb 20, 2015GREEN OA

Confining the state of light to a quantum manifold by engineered two-photon loss

ZLZaki Leghtas STSteven Touzard IMIoan M. Pop AKAngela Kou BVBrian Vlastakis

Yale University · Institut national de recherche en sciences et technologies du numérique · +1 more institution

PubMed

Indexed inarxivcrossrefpubmed

Abstract

Physical systems usually exhibit quantum behavior, such as superpositions and entanglement, only when they are sufficiently decoupled from a lossy environment. Paradoxically, a specially engineered interaction with the environment can become a resource for the generation and protection of quantum states. This notion can be generalized to the confinement of a system into a manifold of quantum states, consisting of all coherent superpositions of multiple stable steady states. We have confined the state of a superconducting resonator to the quantum manifold spanned by two coherent states of opposite phases and have observed a Schrödinger cat state spontaneously squeeze out of vacuum before decaying into a…

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Topics

Keywords

Quantum
Quantum network
Quantum information
Quantum error correction
Physics
Quantum state
Computer science
Photon

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