Quantum phase gate based on multiphoton process in multimode cavity QED

Moteb M. Alqahtani

doi:10.1007/s11128-018-1979-6

Back

Quantum phase gate based on multiphoton process in multimode cavity QED

Journal article

Peer reviewed

Quantum phase gate based on multiphoton process in multimode cavity QED

Moteb M. Alqahtani

Quantum information processing, Vol.17(9), pp.1-12

01/09/2018

DOI: https://doi.org/10.1007/s11128-018-1979-6

Abstract

Article

Data Structures and Information Theory

Mathematical Physics

Physics

Physics and Astronomy

Quantum Computing

Quantum Information Technology

Quantum Physics

Spintronics

We propose a scheme for implementing a two-qubit quantum phase gate in which the photonic qubits encoded on the cavity modes and a three-level V -type atom passes through the cavity. The location of the resonance is predicted from the use of the theory of multiphoton resonance. Further, we investigate the influence of variations in parameters such as the coupling strengths and detunings on the gate fidelity. We also use the wave-function and the density matrix approaches to analyze theoretically and numerically the effects of decoherence in the implementation of the gate.

Metrics

1 Record Views

Details

Title: Quantum phase gate based on multiphoton process in multimode cavity QED
Creators - without role: Moteb M. Alqahtani - King Khalid University
Publication Details: Quantum information processing, Vol.17(9), pp.1-12
Publisher: Springer US
Identifiers: 9922277308331
Academic Unit: King Khalid University
Language: English
Resource Type: Journal article