Alternative scheme of universal optical programmable multi-qubit gates for polarization qubits

P. Pewkhom; S. Suwanna; P. Kalasuwan

doi:10.1007/s11128-020-02699-1

Alternative scheme of universal optical programmable multi-qubit gates for polarization qubits

P. Pewkhom, S. Suwanna, P. Kalasuwan

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

2 Citations (Scopus)

Abstract

We propose an alternative scheme for programmable quantum gates specifically designed for polarization qubits of single photons. Unlike the conventional approach based on the scheme of Reck et al., we adopt the Hilbert-space expansion technique to enable a novel feature in the design of arbitrary quantum operations. We present a scheme that independently programs each matrix element of an operator. The proposed scheme can support the realization of many kinds of quantum operations. In anticipation of advances in the current quantum photonics technology, we assume the manipulation and detection of many photon qubits and propose a theoretical scheme to achieve n-polarization-qubit optical reconfigurable quantum gates by linear optical elements.

Original language	English
Article number	209
Journal	Quantum Information Processing
Volume	19
Issue number	7
DOIs	https://doi.org/10.1007/s11128-020-02699-1
Publication status	Published - 1 Jul 2020
Externally published	Yes

Keywords

Programmable gates
Qubit processing
Universal linear optics

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10.1007/s11128-020-02699-1

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abstract = "We propose an alternative scheme for programmable quantum gates specifically designed for polarization qubits of single photons. Unlike the conventional approach based on the scheme of Reck et al., we adopt the Hilbert-space expansion technique to enable a novel feature in the design of arbitrary quantum operations. We present a scheme that independently programs each matrix element of an operator. The proposed scheme can support the realization of many kinds of quantum operations. In anticipation of advances in the current quantum photonics technology, we assume the manipulation and detection of many photon qubits and propose a theoretical scheme to achieve n-polarization-qubit optical reconfigurable quantum gates by linear optical elements.",

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AB - We propose an alternative scheme for programmable quantum gates specifically designed for polarization qubits of single photons. Unlike the conventional approach based on the scheme of Reck et al., we adopt the Hilbert-space expansion technique to enable a novel feature in the design of arbitrary quantum operations. We present a scheme that independently programs each matrix element of an operator. The proposed scheme can support the realization of many kinds of quantum operations. In anticipation of advances in the current quantum photonics technology, we assume the manipulation and detection of many photon qubits and propose a theoretical scheme to achieve n-polarization-qubit optical reconfigurable quantum gates by linear optical elements.

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KW - Qubit processing

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Alternative scheme of universal optical programmable multi-qubit gates for polarization qubits

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Keywords

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