Engineering the spectral profile of photon pairs by using multi-stage nonlinear interferometers

Mingyi Ma; Liang Cui; Xiaoying Li

doi:10.3788/COL202119.052702

Journals >Chinese Optics Letters >Volume 19 >Issue 5 >Page 052702 > Article

Chinese Optics Letters
Vol. 19, Issue 5, 052702 (2021)

Engineering the spectral profile of photon pairs by using multi-stage nonlinear interferometers

Mingyi Ma, Liang Cui, and Xiaoying Li^*

Author Affiliations

College of Precision Instrument and Opto-Electronics Engineering, Key Laboratory of Opto-Electronics Information Technology, Ministry of Education, Tianjin University, Tianjin 300072, China

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DOI: 10.3788/COL202119.052702 Cite this Article Set citation alerts

Mingyi Ma, Liang Cui, Xiaoying Li. Engineering the spectral profile of photon pairs by using multi-stage nonlinear interferometers[J]. Chinese Optics Letters, 2021, 19(5): 052702 Copy Citation Text

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Abstract

Using the quantum interference of photon pairs in N-stage nonlinear interferometers (NLIs), the contour of the joint spectral function can be modified into an islands pattern. We perform two series of experiments. One is that all of the nonlinear fibers in pulse pumped NLIs are identical; the other is that the lengths of N pieces of nonlinear fibers are different. We not only demonstrate how the pattern of spectral function changes with the stage number N, but also characterize how the relative intensity of island peaks varies with N. The results well agree with theoretical predictions, revealing that the NLI with lengths of N pieces of nonlinear fibers following binomial distribution can provide a better active filtering function. Our investigation shows that the active filtering effect of multi-stage NLI is a useful tool for efficiently engineering the factorable two-photon state—a desirable resource for quantum information processing.

Keywords

nonlinear quantum interference optical parametric amplifier quantum state engineering

F_{NLI}^{S} (ω_{s}, ω_{i}) = F (ω_{s}, ω_{i}) \times H (θ) = g \exp [- \frac{{(ω_{s} + ω_{i} - 2 ω_{p 0})}^{2}}{4 σ_{p}^{2}}] sinc (\frac{Δ k L}{2}) \times H (θ),

(1)

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H (θ) = e^{i (N - 1) θ} \frac{\sin N θ}{\sin θ}

(2)

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θ \approx \frac{Δ ϕ_{DM}}{2} = \frac{λ_{p 0}^{2} D_{SMF} L_{DM} {(ω_{s} - ω_{i})}^{2}}{16 π c} .

(3)

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L_{n} = L_{1} C_{N - 1}^{n - 1} = L_{1} \frac{(N - 1)!}{(n - 1)! (N - n)!},

(4)

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F_{NLI}^{(UN)} (ω_{s}, ω_{i}) \approx \exp [- \frac{{(ω_{s} + ω_{i} - 2 ω_{p 0})}^{2}}{4 σ_{p}^{2}}] \times K (θ),

(5)

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K (θ) = \sum_{n = 1}^{N} L_{n} e^{2 i (n - 1) θ} = L_{1} {(1 + e^{2 i θ})}^{N - 1},

(6)

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Mingyi Ma, Liang Cui, Xiaoying Li. Engineering the spectral profile of photon pairs by using multi-stage nonlinear interferometers[J]. Chinese Optics Letters, 2021, 19(5): 052702

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