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This Week in Photonics: Using Deep Learning to Improve Image Resolution (12/7/2017)

This Week in Photonics: Using Deep Learning to Improve Image Resolution
This Week in Photonics: Using Deep Learning to Improve Image Resolution
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Thursday, December 7, 2017
       
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Top Stories
 
 
Holographic Technique Uses Deep Learning to Increase Accuracy, Improve Microscopy
Holographic Technique Uses Deep Learning to Increase Accuracy, Improve Microscopy
Deep learning, one of the key technologies behind advances in real-time speech recognition and automated image and video labeling, is being used to reconstruct holograms to form microscopic images of samples. Researchers are using a convolutional neural network-based method that is trained through deep learning to rapidly perform phase recovery and holographic image reconstruction.
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High-Intensity Photon Beams for Use in Future Large-Scale Laser Facilities
High-Intensity Photon Beams for Use in Future Large-Scale Laser Facilities
A scientific team has identified the numerical models and analytic estimates for simulating ultra-strong gamma rays in a highly efficient way. According to the team, these high intensity gamma rays significantly exceed all known limits.
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Quantum Optics Lead to Spectroscopy Method for Measuring on FS Time Scale
Quantum Optics Lead to Spectroscopy Method for Measuring on FS Time Scale
Scientists have demonstrated a time-resolved spectroscopy technique that enables the study of very fast processes in samples on the femtosecond (fs) time scale without the need for an fs laser or a complex detection system. The method works by analyzing quantized light transmitted through a sample. It relies on single photons to study the interactions and processes occurring in the samples and ordinary lasers to produce the photons.
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Featured Products
 
 
Canon U.S.A. Inc., Industrial Products Div. - Canon Surface Reflectance Analyzer Canon Surface Reflectance Analyzer

Canon U.S.A. Inc., Industrial Products Div.
Canon RA-532H, Surface Reflectance Analyzer (goniophotometer), is a compact, portable device capable of measuring gloss, haze, image clarity (IC), and BRDF (Bidirectional Reflectance Distribution Function) in a single pass. Canon has released its own new parameters, C20 and C60, which overcome the shortage of both IC and DOI (Distinctiveness of Image)...

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LightMachinery Inc. - The HyperFine Spectrometer The HyperFine Spectrometer

LightMachinery Inc.
Designed for measuring hyperfine spectra and subtle spectral shifts, the HyperFine spectrometer from LightMachinery is a compact, low cost spectrometer capable of sub-picometer resolution. It is ideal for pulsed laser characterization and for measuring the small spectral shifts from Brillouin scattering.

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Coupling Perovskite to Nanophotonic Cavities for More Efficient Optoelectronics
Coupling Perovskite to Nanophotonic Cavities for More Efficient Optoelectronics
To boost the efficiency of perovskite as a light source for optoelectronics, researchers coupled lead halide perovskite nanocrystals to a nanophotonic cavity. The research team drop cast perovskite nanocrystals in a toluene solution onto a silicon nitride (SiN) cavity. They then excited the device with a pulsed laser, which led to photon emission from the nanocrystals.
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Visible Light Controls Chemical Reaction Pathways, Could Be UV Alternative
Visible Light Controls Chemical Reaction Pathways, Could Be UV Alternative
A technique has been developed that modulates visible colored light, enabling it to control the reactions of chemical coupling agents needed to make industrial materials. Researchers showed that the modulation of the reactivity by light could be reversed, and that individually addressable reaction pathways could be repeatedly accessed.
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More Headlines
 
 

Four-Wave Mixing Technique Paves Way for Optical Processing  Read Article 

University of Toronto Astronomers Receive $23M in Funding  Read Article 

Researchers Manipulate Light to Make Optical Chip Invisible  Read Article 

Motic Partners With Bill Gates', Intellectual Ventures' Global Good Fund  Read Article 

Pulsed Laser Irradiation Enhances Antibacterial Properties of Nanoplates  Read Article 

 
Industry Events
 
 
BiOS 2018
BiOS 2018
January 27-29, 2018 - The Moscone Center - San Francisco United States
SPIE BiOS 2018, part of SPIE Photonics West, encompasses clinical, translational and fundamental research and development in the field of biomedical optics and photonics. It provides a technical forum for reporting and learning about the latest research and development, as well as for launching new applications and technologies. This year BiOS will offer 2,400 papers and presentations on a range of topics that include biomedical optics, diagnostics and therapeutics, biophotonics, new imaging modalities, optical coherence tomography, neurophotonics, optogenetics, tissue optics and nano/biophotonics.
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Looking for Imaging and Sensing products? Search PhotonicsBuyersGuide.com, or browse these product categories:
 Multispectral Measurement Cameras 

 Slow Motion Cameras 

 Machine Vision Systems 
 Video Microscopes 

 Optical Pellicles 

 Photonics Component Manufacturing Equipment 
 

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