Discrete quantum Fourier transform using weak cross-Kerr nonlinearity and displacement operator and photon-number-resolving measurement under the decoherence effect |
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| Authors: | Jino Heo Min-Sung Kang Chang-Ho Hong Hyeon Yang Seong-Gon Choi |
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| Affiliation: | 1.School of Information and Communication Engineering,Chungbuk National University,Cheongju,Republic of Korea;2.Center for Quantum Information,Korea Institute of Science and Technology (KIST),Seoul,Republic of Korea;3.National Security Research Institute,Yuseong, Daejeon,Republic of Korea |
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| Abstract: | We present a scheme for implementing discrete quantum Fourier transform (DQFT) with robustness against the decoherence effect using weak cross-Kerr nonlinearities (XKNLs). The multi-photon DQFT scheme can be achieved by operating the controlled path and merging path gates that are formed with weak XKNLs and linear optical devices. To enhance feasibility under the decoherence effect, in practice, we utilize a displacement operator and photon-number-resolving measurement in the optical gate using XKNLs. Consequently, when there is a strong amplitude of the coherent state, we demonstrate that it is possible to experimentally implement the DQFT scheme, utilizing current technology, with a certain probability of success under the decoherence effect. |
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