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This Week in Photonics: Entangled Photons Pave the Way (12/30/2020)

This Week in Photonics: Entangled Photons Pave the Way

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Wednesday, December 30, 2020

.: Top Stories

Chip-Based Source Creates Entangled Photons with Nearly 100× More Efficiency
In pursuit of a fast and efficient source of entangled photon pairs necessary for quantum computing and ultrafast communications, researchers from Stevens Institute of Technology have developed a chip-based source capable of producing entangled photon pairs 100× more efficiently than previously possible.

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Nonlinear Beam Cleaning in Spatiotemporally Mode-Locked Lasers
Researchers from École Polytechnique Fédérale de Lausanne (EPFL) have developed a method of nonlinear beam cleaning in a multimode laser cavity. The technique establishes a new approach for the generation of high-energy ultrashort pulses with single-mode beam quality.

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Mantis Shrimp-Inspired Endoscope Simultaneously Images in Visible 3D and Near-Infrared
Researchers from the Chinese Academy of Science developed an endoscope capable of acquiring 3D visible light and near-infrared fluorescence images at the same time. The optical design combined high-resolution 3D imaging capabilities with the ability of the mantis shrimp to simultaneously detect multiple wavelengths of light.

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.: Featured Products

IN-STOCK ITAR Sapphire Windows Made in The USA

IRD Glass
IRD Glass is proud to offer stock sapphire windows in a variety of sizes and options. Windows are available to ship same-day! Contact us for the current list of window options. Because of our recent investment in cutting-edge sapphire processing equipment, we are able to compete with off-shore prices...

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222 nm UV-C Radiometer for Excimer Lamps

Gigahertz-Optik Inc.
ar-UVC light, for example 222nm produced by Kr-Cl excimer lamps, has been shown to effectively inactivate bacteria but with less photobiological hazard for humans. This is because far-UVC light cannot penetrate human skin or eyes as deeply as longer wavelength UV radiation.

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.: More News

VASCOVID Project Seeks to Improve Patient Care Read Article

Chromacity-Heriot-Watt Partnership Will Advance Research, Commercialization Initiatives Read Article

Samsung Biologics Names John Rim President and CEO Read Article

Mass. and Collaborators to Lead Advanced Manufacturing Technician-Training Program Read Article

Materials Company Trinseo Acquiring Arkema's PMMA Business Read Article

.: Upcoming Webinars

Seeing the Sound: Optical Neural Interfaces for In Vivo Neuromodulation
Wed, Jan 6, 2021 1:00P EST
Optogenetics has transformed experimental neuroscience by manipulating the activity of specific cell types with light, enabling in vivo neuromodulation with millisecond temporal resolution. Current wavelengths used for optogenetics are limiting, however. In this webinar, Guosong Hong, Ph.D., of Stanford University will present two recent methods to address this challenge: “sono-optogenetics” and “macromolecular infrared nanotransducers for deep-brain stimulation (MINDS).”

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