2015
DOI: 10.1103/physreva.91.043807
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Optimization of photon correlations by frequency filtering

Abstract: Stronger correlations are usually found where the system emission is weak. Here, we characterize both the strength and signal of such correlations, through the introduction of the "frequency-resolved Mandel parameter." We study a plethora of nonlinear quantum systems, showing how one can substantially optimize correlations by combining parameters such as pumping, filtering windows and time delay.

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Cited by 31 publications
(48 citation statements)
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“…Result (15) reduces to the known results for τ = 0, for the vacuum state withn = 0 [6] and for the thermal state withn = 0 [11], since A(0) = α and provided θ = 2ϕ, which to minimize intensity fluctuations it is always optimal to squeeze the amplitude quadrature. The quantity u(τ )n(τ ) − v(τ )s(τ ) is given by (A1) in Appendix A and 2) (0.0674) = g (2) (0) = 2 − g (2) (0.593) and g (2) (τ ) is monotonically increasing after achieving its minimum.…”
Section: Temporal Second-order Correlation Functionmentioning
confidence: 97%
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“…Result (15) reduces to the known results for τ = 0, for the vacuum state withn = 0 [6] and for the thermal state withn = 0 [11], since A(0) = α and provided θ = 2ϕ, which to minimize intensity fluctuations it is always optimal to squeeze the amplitude quadrature. The quantity u(τ )n(τ ) − v(τ )s(τ ) is given by (A1) in Appendix A and 2) (0.0674) = g (2) (0) = 2 − g (2) (0.593) and g (2) (τ ) is monotonically increasing after achieving its minimum.…”
Section: Temporal Second-order Correlation Functionmentioning
confidence: 97%
“…Our result (15) for the correlation function is exact and is based on dynamically generating the Gaussian state first and subsequently determining the time evolution of the system without assuming the field to be statistically stationary.…”
Section: Summary and Discussionmentioning
confidence: 99%
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