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EAGER: Polarization-Enabled Self-Quasi-Phase Matching for Quantum and Classical Nonlinear — NSF Award to University of California-

Nontechnical Description Nonlinear optical wave mixing processes are a key component of modern optical diverse technologies in fields such as communication, health, and environmental sensing. However, wave mixing processes in nonlinear optics present significant challenges, among them the vanishingly small magnitude of

Award titleEAGER: Polarization-Enabled Self-Quasi-Phase Matching for Quantum and Classical Nonlinear
Award ID2536027
AwardeeUniversity of California-San Diego
CityLA JOLLA
StateCA
Amount obligated$204,879
Principal investigatorNoah Rubin
ProgramEPMQD: Electronic, Photonic, M
Start date10/01/2025
AbstractNontechnical Description Nonlinear optical wave mixing processes are a key component of modern optical diverse technologies in fields such as communication, health, and environmental sensing. However, wave mixing processes in nonlinear optics present significant challenges, among them the vanishingly small magnitude of the nonlinear susceptibility of most materials, the consequent high pump power densities required, and phase matching. The pursuit of phase matching has shaped the development of
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