Integration all-optical switching in χ(2) microdisks for quantum applications

Yu Ping Huang; Prem Kumar

doi:10.1364/OL.35.002376

Integration all-optical switching in χ⁽²⁾ microdisks for quantum applications

Yu Ping Huang, Prem Kumar

Department of Physics

Northwestern University

Research output: Contribution to journal › Article › peer-review

33 Scopus citations

Abstract

We propose a quantum switch for telecom-band applications that is composed of a χ⁽²⁾ microdisk coupled to two fibers (or waveguides). The idea is to apply a pump pulse to shift the microdisk out of resonance, thereby switching the device between the cross and bar states in an interaction-free manner. As an example, a 2.5-μm-thick, 10 μm radius GaAs microdisk with an intrinsic Q of ∼10⁸ and a fiber-cavity-coupling Q of ∼10⁴ can achieve low-loss (≲1%) switching for gigahertz-rate O-band quantum signals with milliwatt-peak-power pumps in the C band.

Original language	English
Pages (from-to)	2376-2378
Number of pages	3
Journal	Optics Letters
Volume	35
Issue number	14
DOIs	https://doi.org/10.1364/OL.35.002376
State	Published - 15 Jul 2010

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abstract = "We propose a quantum switch for telecom-band applications that is composed of a χ(2) microdisk coupled to two fibers (or waveguides). The idea is to apply a pump pulse to shift the microdisk out of resonance, thereby switching the device between the cross and bar states in an interaction-free manner. As an example, a 2.5-μm-thick, 10 μm radius GaAs microdisk with an intrinsic Q of ∼108 and a fiber-cavity-coupling Q of ∼104 can achieve low-loss (≲1\%) switching for gigahertz-rate O-band quantum signals with milliwatt-peak-power pumps in the C band.",

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AB - We propose a quantum switch for telecom-band applications that is composed of a χ(2) microdisk coupled to two fibers (or waveguides). The idea is to apply a pump pulse to shift the microdisk out of resonance, thereby switching the device between the cross and bar states in an interaction-free manner. As an example, a 2.5-μm-thick, 10 μm radius GaAs microdisk with an intrinsic Q of ∼108 and a fiber-cavity-coupling Q of ∼104 can achieve low-loss (≲1%) switching for gigahertz-rate O-band quantum signals with milliwatt-peak-power pumps in the C band.

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Integration all-optical switching in χ⁽²⁾ microdisks for quantum applications

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