Atom-mediated spontaneous parametric down-conversion in periodic waveguides

Sina Saravi; Alexander N. Poddubny; Thomas Pertsch; Frank Setzpfandt; Andrey A. Sukhorukov

doi:10.1364/OL.42.004724

Atom-mediated spontaneous parametric down-conversion in periodic waveguides

Sina Saravi, Alexander N. Poddubny, Thomas Pertsch, Frank Setzpfandt, Andrey A. Sukhorukov

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

Abstract

We propose the concept of atom-mediated spontaneous parametric down-conversion, in which photon-pair generation can take place only in the presence of a single two-level emitter, relying on the bandgap evanescent modes of a nonlinear periodic waveguide. Using a guided signal mode, an evanescent idler mode, and an atom-like emitter with the idler’s transition frequency embedded in the structure, we find a heralded excitation mechanism, in which the detection of a signal photon outside the structure heralds the excitation of the embedded emitter. We use a rigorous Green’s function quantization method to model this heralding mechanism in a 1D periodic waveguide and determine its robustness against losses.

Original language	English
Pages (from-to)	4724-4727
Number of pages	4
Journal	Optics Letters
Volume	42
Issue number	22
DOIs	https://doi.org/10.1364/OL.42.004724
State	Published - 15 Nov 2017
Externally published	Yes

All Science Journal Classification (ASJC) codes

Atomic and Molecular Physics, and Optics

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10.1364/OL.42.004724

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title = "Atom-mediated spontaneous parametric down-conversion in periodic waveguides",

abstract = "We propose the concept of atom-mediated spontaneous parametric down-conversion, in which photon-pair generation can take place only in the presence of a single two-level emitter, relying on the bandgap evanescent modes of a nonlinear periodic waveguide. Using a guided signal mode, an evanescent idler mode, and an atom-like emitter with the idler{\textquoteright}s transition frequency embedded in the structure, we find a heralded excitation mechanism, in which the detection of a signal photon outside the structure heralds the excitation of the embedded emitter. We use a rigorous Green{\textquoteright}s function quantization method to model this heralding mechanism in a 1D periodic waveguide and determine its robustness against losses.",

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AU - Saravi, Sina

AU - Poddubny, Alexander N.

AU - Pertsch, Thomas

AU - Setzpfandt, Frank

AU - Sukhorukov, Andrey A.

PY - 2017/11/15

Y1 - 2017/11/15

N2 - We propose the concept of atom-mediated spontaneous parametric down-conversion, in which photon-pair generation can take place only in the presence of a single two-level emitter, relying on the bandgap evanescent modes of a nonlinear periodic waveguide. Using a guided signal mode, an evanescent idler mode, and an atom-like emitter with the idler’s transition frequency embedded in the structure, we find a heralded excitation mechanism, in which the detection of a signal photon outside the structure heralds the excitation of the embedded emitter. We use a rigorous Green’s function quantization method to model this heralding mechanism in a 1D periodic waveguide and determine its robustness against losses.

AB - We propose the concept of atom-mediated spontaneous parametric down-conversion, in which photon-pair generation can take place only in the presence of a single two-level emitter, relying on the bandgap evanescent modes of a nonlinear periodic waveguide. Using a guided signal mode, an evanescent idler mode, and an atom-like emitter with the idler’s transition frequency embedded in the structure, we find a heralded excitation mechanism, in which the detection of a signal photon outside the structure heralds the excitation of the embedded emitter. We use a rigorous Green’s function quantization method to model this heralding mechanism in a 1D periodic waveguide and determine its robustness against losses.

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DO - 10.1364/OL.42.004724

M3 - مقالة

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VL - 42

SP - 4724

EP - 4727

JO - Optics Letters

JF - Optics Letters

IS - 22

ER -

Atom-mediated spontaneous parametric down-conversion in periodic waveguides

Abstract

All Science Journal Classification (ASJC) codes

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