Silicon photonic processor of two-qubit entangling quantum logic

R. Santagati; J. W. Silverstone; M. J. Strain; M. Sorel; S. Miki; T. Yamashita; M. Fujiwara; M. Sasaki; H. Terai; M. G. Tanner; C. M. Natarajan; R. H. Hadfield; J. L. O'Brien; M. G. Thompson

doi:10.1088/2040-8986/aa8d56

Silicon photonic processor of two-qubit entangling quantum logic

R. Santagati, J. W. Silverstone, M. J. Strain, M. Sorel, S. Miki, T. Yamashita, M. Fujiwara, M. Sasaki, H. Terai, M. G. Tanner, C. M. Natarajan, R. H. Hadfield, J. L. O'Brien, M. G. Thompson

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

24 Citations (Scopus)

Abstract

Entanglement is a fundamental property of quantum mechanics, and is a primary resource in quantum information systems. Its manipulation remains a central challenge in the development of quantum technology. In this work, we demonstrate a device which can generate, manipulate, and analyse two-qubit entangled states, using miniature and mass-manufacturable silicon photonics. By combining four photon-pair sources with a reconfigurable six-mode interferometer, embedding a switchable entangling gate, we generate two-qubit entangled states, manipulate their entanglement, and analyse them, all in the same silicon chip. Using quantum state tomography, we show how our source can produce a range of entangled and separable states, and how our switchable controlled-Z gate operates on them, entangling them or making them separable depending on its configuration.

Original language	English
Article number	114006
Journal	Journal of Optics (United Kingdom)
Volume	19
Issue number	11
DOIs	https://doi.org/10.1088/2040-8986/aa8d56
Publication status	Published - 17 Oct 2017
Externally published	Yes

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Santagati, R., Silverstone, J. W., Strain, M. J., Sorel, M., Miki, S., Yamashita, T., Fujiwara, M., Sasaki, M., Terai, H., Tanner, M. G., Natarajan, C. M., Hadfield, R. H., O'Brien, J. L., & Thompson, M. G. (2017). Silicon photonic processor of two-qubit entangling quantum logic. Journal of Optics (United Kingdom), 19(11), [114006]. https://doi.org/10.1088/2040-8986/aa8d56

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abstract = "Entanglement is a fundamental property of quantum mechanics, and is a primary resource in quantum information systems. Its manipulation remains a central challenge in the development of quantum technology. In this work, we demonstrate a device which can generate, manipulate, and analyse two-qubit entangled states, using miniature and mass-manufacturable silicon photonics. By combining four photon-pair sources with a reconfigurable six-mode interferometer, embedding a switchable entangling gate, we generate two-qubit entangled states, manipulate their entanglement, and analyse them, all in the same silicon chip. Using quantum state tomography, we show how our source can produce a range of entangled and separable states, and how our switchable controlled-Z gate operates on them, entangling them or making them separable depending on its configuration.",

keywords = "entanglement, integrated quantum information processing, photonic qubits, quantum photonics, silicon quantum photonics",

author = "R. Santagati and Silverstone, {J. W.} and Strain, {M. J.} and M. Sorel and S. Miki and T. Yamashita and M. Fujiwara and M. Sasaki and H. Terai and Tanner, {M. G.} and Natarajan, {C. M.} and Hadfield, {R. H.} and O'Brien, {J. L.} and Thompson, {M. G.}",

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AU - Santagati, R.

AU - Silverstone, J. W.

AU - Strain, M. J.

AU - Sorel, M.

AU - Miki, S.

AU - Yamashita, T.

AU - Fujiwara, M.

AU - Sasaki, M.

AU - Terai, H.

AU - Tanner, M. G.

AU - Natarajan, C. M.

AU - Hadfield, R. H.

AU - O'Brien, J. L.

AU - Thompson, M. G.

PY - 2017/10/17

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N2 - Entanglement is a fundamental property of quantum mechanics, and is a primary resource in quantum information systems. Its manipulation remains a central challenge in the development of quantum technology. In this work, we demonstrate a device which can generate, manipulate, and analyse two-qubit entangled states, using miniature and mass-manufacturable silicon photonics. By combining four photon-pair sources with a reconfigurable six-mode interferometer, embedding a switchable entangling gate, we generate two-qubit entangled states, manipulate their entanglement, and analyse them, all in the same silicon chip. Using quantum state tomography, we show how our source can produce a range of entangled and separable states, and how our switchable controlled-Z gate operates on them, entangling them or making them separable depending on its configuration.

AB - Entanglement is a fundamental property of quantum mechanics, and is a primary resource in quantum information systems. Its manipulation remains a central challenge in the development of quantum technology. In this work, we demonstrate a device which can generate, manipulate, and analyse two-qubit entangled states, using miniature and mass-manufacturable silicon photonics. By combining four photon-pair sources with a reconfigurable six-mode interferometer, embedding a switchable entangling gate, we generate two-qubit entangled states, manipulate their entanglement, and analyse them, all in the same silicon chip. Using quantum state tomography, we show how our source can produce a range of entangled and separable states, and how our switchable controlled-Z gate operates on them, entangling them or making them separable depending on its configuration.

KW - entanglement

KW - integrated quantum information processing

KW - photonic qubits

KW - quantum photonics

KW - silicon quantum photonics

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JF - Journal of Optics A: Pure and Applied Optics

SN - 1464-4258

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ER -

Silicon photonic processor of two-qubit entangling quantum logic

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