Yao Li scite author profile

A space-resolving flux detector (SRFD) is developed to measure the X-ray flux emitted from a specified region in hohlraum with a high resolution up to 0.11mm for the first time. This novel detector has been used successfully to measure the distinct X-ray fluxes emitted from hot laser spot and cooler re-emitting region simultaneously, in the hohlraum experiments on SGIII prototype laser facility. According to our experiments, the ratio of laser spot flux to re-emitted flux shows a strong time-dependent behavior, and the area-weighted flux post-processed from the measured laser spot flux and re-emitting wall flux agrees with that measured from Laser Entrance Hole by using flat-response X-ray detector (F-XRD). The experimental observations is reestablished by our two-dimensional hydrodynamic simulations and is well understood with the power balance relationship.

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Angle dependent antireflection property of TiO2 inspired by cicada wings

Imran

Zhang

et al. 2016

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Inspired by cicada wings, biomorphic TiO2 with antireflective structures (ARSs) was precisely fabricated using a simple, inexpensive, and highly effective sol-gel process combined with subsequent calcination. It was confirmed that the fabricated biomorphic TiO2 not only effectively inherited the ARS but also exhibited high-performance angle dependent antireflective properties ranging from normal to 45°. Reflectance spectra demonstrated that the reflectivity of the biomorphic TiO2 with ARSs gradually changed from 1.4% to 7.8% with the increasing incidence angle over a large visible wavelength range. This angle dependent antireflective property is attributed to an optimized gradient refractive index between air and TiO2 via ARSs on the surface. Such surfaces with ARSs may have potential application in solar cells.

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Distributed crossbar interconnects with vertical-cavity surface-emitting laser–angle multiplexing and fiber image guides

Wang

Kawai

1998

Appl. Opt.

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We report on the implementation of an optical crossbar interconnectconsisting of a centralized free-space beam-steering subsystem, adistributed array of vertical-cavity surface-emitting lasers andphotoreceivers, a fiber image guide, and a large-core polymer fiberarray. The interconnect can in principle handle more than 350cross-bar channels, but our implementation demonstrated only 240channels. Transmissions of 500-Mbit/s per channel weredemonstrated. Approximately 12.7-dB end-to-end optical channelattenuation was measured. Details of component design, packaging, system integration, and testing are presented and discussed.

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Existence of Nonequilibrium Steady State for a Simple Model of Heat Conduction

Young

2013

J Stat Phys

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Yao Li

Laser speckle contrast imaging of cerebral blood flow in freely moving animals

Direct measurement of x-ray flux for a pre-specified highly-resolved region in hohlraum

Angle dependent antireflection property of TiO2 inspired by cicada wings

Distributed crossbar interconnects with vertical-cavity surface-emitting laser–angle multiplexing and fiber image guides

Existence of Nonequilibrium Steady State for a Simple Model of Heat Conduction

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