Decoherence and interferometric sensitivity of boson sampling in superconducting resonator networks

Samuel Goldstein; Simcha Korenblit; Ydan Bendor; Hao You; Michael R. Geller; Nadav Katz

doi:10.1103/PhysRevB.95.020502

Decoherence and interferometric sensitivity of boson sampling in superconducting resonator networks

Samuel Goldstein, Simcha Korenblit, Ydan Bendor, Hao You, Michael R. Geller, Nadav Katz

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Multiple bosons undergoing coherent evolution in a coupled network of sites constitute a so-called quantum walk system. The simplest example of such a two-particle interference is the celebrated Hong-Ou-Mandel interference. When scaling to larger boson numbers, simulating the exact distribution of bosons has been shown, under reasonable assumptions, to be exponentially hard. We analyze the feasibility and expected performance of a globally connected superconducting resonator based quantum walk system, using the known characteristics of state-of-the-art components. We simulate the sensitivity of such a system to decay processes and to perturbations and compare with coherent input states.

Original language	English (US)
Article number	020502
Journal	Physical Review B
Volume	95
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevB.95.020502
State	Published - Jan 17 2017

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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title = "Decoherence and interferometric sensitivity of boson sampling in superconducting resonator networks",

abstract = "Multiple bosons undergoing coherent evolution in a coupled network of sites constitute a so-called quantum walk system. The simplest example of such a two-particle interference is the celebrated Hong-Ou-Mandel interference. When scaling to larger boson numbers, simulating the exact distribution of bosons has been shown, under reasonable assumptions, to be exponentially hard. We analyze the feasibility and expected performance of a globally connected superconducting resonator based quantum walk system, using the known characteristics of state-of-the-art components. We simulate the sensitivity of such a system to decay processes and to perturbations and compare with coherent input states.",

author = "Samuel Goldstein and Simcha Korenblit and Ydan Bendor and Hao You and Geller, {Michael R.} and Nadav Katz",

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AU - Goldstein, Samuel

AU - Korenblit, Simcha

AU - Bendor, Ydan

AU - You, Hao

AU - Geller, Michael R.

AU - Katz, Nadav

PY - 2017/1/17

Y1 - 2017/1/17

N2 - Multiple bosons undergoing coherent evolution in a coupled network of sites constitute a so-called quantum walk system. The simplest example of such a two-particle interference is the celebrated Hong-Ou-Mandel interference. When scaling to larger boson numbers, simulating the exact distribution of bosons has been shown, under reasonable assumptions, to be exponentially hard. We analyze the feasibility and expected performance of a globally connected superconducting resonator based quantum walk system, using the known characteristics of state-of-the-art components. We simulate the sensitivity of such a system to decay processes and to perturbations and compare with coherent input states.

AB - Multiple bosons undergoing coherent evolution in a coupled network of sites constitute a so-called quantum walk system. The simplest example of such a two-particle interference is the celebrated Hong-Ou-Mandel interference. When scaling to larger boson numbers, simulating the exact distribution of bosons has been shown, under reasonable assumptions, to be exponentially hard. We analyze the feasibility and expected performance of a globally connected superconducting resonator based quantum walk system, using the known characteristics of state-of-the-art components. We simulate the sensitivity of such a system to decay processes and to perturbations and compare with coherent input states.

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Decoherence and interferometric sensitivity of boson sampling in superconducting resonator networks

Abstract

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