Quantum theory of all-optical switching in nonlinear Sagnac interferometers

Huang, Yu Ping; Kumar, Prem

doi:10.1088/1367-2630/14/5/053038

Cited by 7 publications

(3 citation statements)

References 35 publications

(85 reference statements)

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“… We developed a comprehensive quantum theory for all-optical switches based on nonlinear Sagnac interferometers, where the in-coupling of quantum noise is carefully modeled [10]. When applied to a fiber-loop switch, the theory shows good agreement with the experimental results without using any fitting parameter.…”

Section: Ii: Summary Of Projectmentioning

confidence: 97%

Secure Communication via Key Generation with Quantum Measurement Advantage in the Telecom Band

Kumar¹,

Yuen²,

Huang³

2013

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Section: Ii: Summary Of Projectmentioning

confidence: 97%

Secure Communication via Key Generation with Quantum Measurement Advantage in the Telecom Band

Kumar¹,

Yuen²,

Huang³

2013

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“…Detailed description of such devices can be found in Refs. [14] and [15]. Basically, it switches input signal waves between the transmission and reflection ports depending on the presence or absence of control pump waves.…”

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confidence: 99%

“…(8) of Ref. [15]. Figures 2(a) and 2(b) show the simulation and experimental results with 5 ps full width at half-maximum (FWHM) Gaussian pump pulses for fiber lengths of 100 and 500 m, respectively.…”

mentioning

confidence: 99%

Self-stabilized quantum optical Fredkin gate

Huang

Kumar

2013

Opt. Lett.

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The quantum optical Fredkin gate is an indispensable resource for networkable quantum applications. Its performance in practical implementations, however, is limited fundamentally by the inherent quantum fluctuations of the pump waves. We demonstrate a method to overcome this drawback by exploiting stimulated Raman scattering in fiber-based implementations. Using a Sagnac fiber-loop switch as a specific example, we show that high switching contrast can be maintained even in the presence of significant pump fluctuations. This unique feature of self-stabilization, together with high-speed and low-loss performance of such devices, point to a viable technology for practical quantum communications.

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