Perturbative theory shows scattering loss in ferroelectric waveguides peaks when domain sizes match light wavelength, recommending sub-micron domains or single domains for low loss at telecom wavelengths.
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Simulations identify anisotropic ground stations, multi-inclination LEO orbits, and multi-party service policies as key to achieving concurrent global quantum connectivity with acceptable latency and link strength.
A practical review summarizing principles and requirements of modern cryogenic systems from flow cryostats to dilution refrigerators for solid-state quantum optical devices.
citing papers explorer
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Scattering-Induced Loss in Ferroelectric Photonic Devices
Perturbative theory shows scattering loss in ferroelectric waveguides peaks when domain sizes match light wavelength, recommending sub-micron domains or single domains for low loss at telecom wavelengths.
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Designing a Satellite Serviced Quantum Network Backbone for Concurrent Global Connectivity
Simulations identify anisotropic ground stations, multi-inclination LEO orbits, and multi-party service policies as key to achieving concurrent global quantum connectivity with acceptable latency and link strength.
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Cryogenic Systems for Quantum Photonic Technologies: A Practical Review
A practical review summarizing principles and requirements of modern cryogenic systems from flow cryostats to dilution refrigerators for solid-state quantum optical devices.