Fundamental eigenmode of traveling-wave phase-sensitive optical parametric amplifier: experimental generation and verification

Bhagwat, Amar R.; Alon, Gideon; Lim, Oo Kaw; Chen, Chao Hsiang; Annamalai, Muthiah; Vasilyev, Michael; Kumar, Prem

doi:10.1364/ol.38.002858

Cited by 3 publications

(1 citation statement)

References 14 publications

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“…First, based on our previous studies of the nonlinear mode interactions in spatially-multimode optical parametric amplifiers in free space [6][7][8][9] and multimode waveguides [10], we have developed a scheme for a spatial-mode demultiplexer based on sum-frequency generation (SFG) in a two-mode PPLN waveguide [11,12]. We have experimentally demonstrated such a demultiplexer, in which, by adjusting the spatial profile of a 1560-nm pump wave, we could selectively upconvert either mode TM00, or mode TM01, or any superposition of these two modes of a 1540-nm signal to TM01 mode at 775 nm, for both classical [13,14] and single-photon-level [14,15] signals.…”

Section: Spatial-mode-selective Quantum Frequency Conversionmentioning

confidence: 99%

Devices for quantum communication over mode-division-multiplexing systems

Shamsshooli

Kwon

Guo

et al. 2023

Quantum Computing, Communication, and Simulation III

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In the absence of quantum repeaters, the only way to increase the quantum communication capacity at a given reach is to employ more modes for encoding and transmitting information. While frequency, temporal, and polarization modes have already been exploited for this purpose, the use of many spatial modes over long distances has only recently become possible owing to the development of low-loss few-mode fibers (FMFs).We will discuss the development of two key enablers of quantum communication over FMF spatial modes: 1) spatiallyentangled photon-pair generator and 2) dynamically-reconfigurable spatial-mode de-multiplexer that can perform projective measurements alternating between two sets of mutually unbiased bases in a given spatial mode space. Both devices are based on the spatial-mode-selective quantum frequency conversion process, implemented in either χ (2) (multimode LiNbO3 waveguide) or χ (3) (custom-made FMF) nonlinear medium.

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Section: Spatial-mode-selective Quantum Frequency Conversionmentioning

confidence: 99%

Devices for quantum communication over mode-division-multiplexing systems

Shamsshooli

Kwon

Guo

et al. 2023

Quantum Computing, Communication, and Simulation III

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View full text Add to dashboard Cite

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Matched filtering of ultrashort pulses

Vasilyev

2015

Science

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Compact representation of the spatial modes of a phase-sensitive image amplifier

et al. 2013

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We compute the eigenmodes of a spatially-broadband optical parametric amplifier with elliptical Gaussian pump and show that the well-amplified eigenmodes can be compactly represented by a low-dimensional subspace of the first few Laguerre- or Hermite-Gaussian (LG or HG, respectively) modes of an appropriate waist size. We also show that the first few eigenmodes are well matched to single LG or HG modes. For sufficiently large pump waists, the optimum waist size of the compact basis is in the vicinity of the geometric average of the pump waist size and the inverse spatial bandwidth of the nonlinear crystal in the parametric amplifier. The use of such compact representation can greatly simplify numerical computation of the spatial eigenmodes of the amplifier and thus lead to improving the experiments on traveling-wave image amplification and spatially-broadband vacuum squeezing.

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Fundamental eigenmode of traveling-wave phase-sensitive optical parametric amplifier: experimental generation and verification

Cited by 3 publications

References 14 publications

Devices for quantum communication over mode-division-multiplexing systems

Devices for quantum communication over mode-division-multiplexing systems

Matched filtering of ultrashort pulses

Compact representation of the spatial modes of a phase-sensitive image amplifier

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