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W4372218908 abstract "In quantum computing, qudit is a multilevel computational unit. Qudit, as an alternative to qubit, has a larger state space for information storage and processing. Quantum circuit built with qudits can enhance algorithm efficiency, reduce the circuit complexity, and simplify the experiment. Photonic systems with their comparatively long decoherence time provide good platforms for quantum computing. Some photonic systems also provide suitable working platforms for qudit quantum computing because qudit systems can be encoded naturally and conveniently with photons given the multidimensional nature in many photon properties. This chapter first introduces the basic knowledge and concepts of qudit quantum computing that include qudit gates, universality, and important qudit algorithms such as the quantum Fourier transform and the Phase Estimation Algorithm (PEA). It then reviews two implementations of qudit computing with photonic systems. The first system is an electro-optic platform that integrates on-chip modulators, pulse shapers, and other well-established fiber-optic components. This platform is capable of performing high-fidelity quantum Fourier transform pulse shaping and the two-qudit SUM gate via the time and frequency degrees of freedom, which paves the way to demonstrate a proof-of-principle qutrit PEA. The second system consists of microwave cavities and transmon qubits to implement a two-mode superconducting bosonic processor that enables the scalable simulation of molecular vibronic spectra." @default.
W4372218908 created "2023-05-07" @default.
W4372218908 creator A5017775824 @default.
W4372218908 creator A5035375708 @default.
W4372218908 creator A5081837712 @default.
W4372218908 date "2023-05-05" @default.
W4372218908 modified "2023-10-02" @default.
W4372218908 title "Photonic Realization of Qudit Quantum Computing" @default.
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W4372218908 doi "https://doi.org/10.1002/9783527837427.ch23" @default.
W4372218908 hasPublicationYear "2023" @default.
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