Reduction of FWM noise in WDM-based QKD systems using interleaved and unequally spaced channels

Yongmei Sun; Yishan Lu; Jianing Niu; Yuefeng Ji

doi:10.3788/COL201614.060602

Journals >Chinese Optics Letters >Volume 14 >Issue 6 >Page 060602 > Article

Chinese Optics Letters
Vol. 14, Issue 6, 060602 (2016)

Reduction of FWM noise in WDM-based QKD systems using interleaved and unequally spaced channels

Yongmei Sun^*, Yishan Lu, Jianing Niu, and Yuefeng Ji

Author Affiliations

State Key Laboratory of Information Photonics and Optical Communications, Beijing University of Posts and Telecommunications (BUPT), Beijing 100876, China

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DOI: 10.3788/COL201614.060602 Cite this Article Set citation alerts

Yongmei Sun, Yishan Lu, Jianing Niu, Yuefeng Ji. Reduction of FWM noise in WDM-based QKD systems using interleaved and unequally spaced channels[J]. Chinese Optics Letters, 2016, 14(6): 060602 Copy Citation Text

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Abstract

To extensively deploy quantum key distribution (QKD) systems, copropagating with classical channels on the same fiber using wavelength division multiplexing (WDM) technology becomes a critical issue. We propose a user-based channel-interleaving WDM scheme with unequal frequency spacing (UFS-iWDM) to reduce the impairment on the quantum channels induced by four-wave mixing (FWM), and theoretically analyze its impact on quantum bit error rate (QBER). Numerical simulation results show that a UFS-iWDM can significantly reduce the FWM noise and improve QBER compared with the corresponding WDM scheme with equal frequency spacing (EFS), especially in the case of nonzero dispersion shifted fiber.

f_{i j k} = f_{i} + f_{j} - f_{k} .

(1)

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P_{i j k} = \frac{η D^{2} γ^{2} P_{i} P_{j} P_{k} e^{- α z}}{9 α^{2}} {[1 - e^{- α z}]}^{2},

(2)

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η = \frac{α^{2}}{α^{2} + Δ β^{2}} {1 + \frac{4 e^{- α z} \sin^{2} (\frac{Δ β Z}{2})}{{[1 - e^{- α z}]}^{2}}},

(3)

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Δ β = β_{i j k} + β_{k} - β_{i} - β_{j},

(4)

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QBER = \frac{\frac{1 - V}{2} R_{sift} + \frac{1}{2} (R_{d c} + R_{c t} + R_{FWM})}{R_{sift} + R_{d c} + (R_{c t} + R_{FWM})},

(5)

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R_{sift} = q δ f_{rep} μ η_{spd} \times 10^{- 0.1 (α z + A_{0} + A_{d})},

(6)

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R_{d c} = 2 q f_{rep} P_{dark},

(7)

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R_{c t} = q δ \frac{P_{c t} λ}{h c} f_{rep} Δ τ_{gate} η_{spd} \times 10^{- 0.1 (α z + A_{0} + I_{s})},

(8)

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R_{FWM} = q δ \frac{P_{FWM} λ}{h c} f_{rep} Δ τ_{gate} η_{spd} \times 10^{- 0.1 (A_{0} + A_{d})},

(9)

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Yongmei Sun, Yishan Lu, Jianing Niu, Yuefeng Ji. Reduction of FWM noise in WDM-based QKD systems using interleaved and unequally spaced channels[J]. Chinese Optics Letters, 2016, 14(6): 060602

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