B. R. Marshall scite author profile

Inelastic (transpectral) scattering may contribute significantly to the in-waterlightfield. Major mechanisms for inelastic scattering include Raman scattering, which we show is important in clear ocean waters, and fluorescence from a variety of sources, which may be important in more turbid waters. We have determined the Raman cross section for liquid water, 8.2 x 10(-30) (cm(2) sr(-1) molecule(-1)), which is in agreement with the lower range of published values. The influence of Raman scattering, based on predictions of a modified two-stream model, is in agreement with measured values of spectral reflectance R(lambda,z) and the spectral diffuse attenuation coefficient for irradiance K(lambda,z). Inelastic scattering has important ramifications for several aspects of marine biooptics including the determination of in-water spectral absorption, the estimation of clear water ocean optical properties, and possibly various aspects of algal photobiology.

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Coherent pulse interrogation system for fiber Bragg grating sensing of strain and pressure in dynamic extremes of materials

Rodriguez¹,

Jaime²,

Balakirev³

et al. 2015

Opt. Express

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A 100 MHz fiber Bragg grating (FBG) interrogation system is described and applied to strain and pressure sensing. The approach relies on coherent pulse illumination of the FBG sensor with a broadband short pulse from a femtosecond modelocked erbium fiber laser. After interrogation of the FBG sensor, a long multi-kilometer run of single mode fiber is used for chromatic dispersion to temporally stretch the spectral components of the reflected pulse from the FBG sensor. Dynamic strain or pressure induced spectral shifts in the FBG sensor are detected as a pulsed time domain waveform shift after encoding by the chromatic dispersive line. Signals are recorded using a single 35 GHz photodetector and a 50 G Samples per second, 25 GHz bandwidth, digitizing oscilloscope. Application of this approach to high-speed strain sensing in magnetic materials in pulsed magnetic fields to ~150 T is demonstrated. The FBG wavelength shifts are used to study magnetic field driven magnetostriction effects in LaCoO₃. A sub-microsecond temporal shift in the FBG sensor wavelength attached to the sample under first order phase change appears as a fractional length change (strain: ΔL/L<10^-4) in the material. A second application used FBG sensing of pressure dynamics to nearly 2 GPa in the thermal ignition of the high explosive PBX-9501 is also demonstrated. Both applications demonstrate the use of this FBG interrogation system in dynamical extreme conditions that would otherwise not be possible using traditional FBG interrogation approaches that are deemed too slow to resolve such events.

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Experimental measurements of a converging flux conserver suitable for compressing a field reversed configuration for magnetized target fusion

Intrator

Taccetti²,

Clark³

et al. 2002

Nucl. Fusion

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Data are presented that are part of a first step in establishing the scientific basis of magnetized target fusion (MTF) as a cost effective approach to fusion energy. A radially converging flux compressor shell with characteristics suitable for MTF is demonstrated to be feasible. The key scientific and engineering question for this experiment is whether the large radial force density required to uniformly pinch this cylindrical shell would do so without buckling or kinking its shape. The time evolution of the shell has been measured with several independent diagnostic methods. The uniformity, height to diameter ratio and radial convergence are all better than required to compress a high density field reversed configuration to fusion relevant temperature and density.

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Insight into fiber Bragg sensor response at 100-MHz interrogation rates under various dynamic loading conditions

Rodriguez

Jaime

Mielke

et al. 2015

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Simultaneous broadband laser ranging and photonic Doppler velocimetry for dynamic compression experiments

Lone

Marshall

Miller

et al. 2015

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A diagnostic was developed to simultaneously measure both the distance and velocity of rapidly moving surfaces in dynamic compression experiments, specifically non-planar experiments where integrating the velocity in one direction does not always give the material position accurately. The diagnostic is constructed mainly from fiber-optic telecommunications components. The distance measurement is based on a technique described by Xia and Zhang [Opt. Express 18, 4118 (2010)], which determines the target distance every 20 ns and is independent of the target speed. We have extended the full range of the diagnostic to several centimeters to allow its use in dynamic experiments, and we multiplexed it with a photonic Doppler velocimetry (PDV) system so that distance and velocity histories can be measured simultaneously using one fiber-optic probe. The diagnostic was demonstrated on a spinning square cylinder to show how integrating a PDV record can give an incorrect surface position and how the ranging diagnostic described here obtains it directly. The diagnostic was also tested on an explosive experiment where copper fragments and surface ejecta were identified in both the distance and velocity signals. We show how the distance measurements complement the velocity data. Potential applications are discussed.

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B. R. Marshall

Raman scattering and in-water ocean optical properties

Coherent pulse interrogation system for fiber Bragg grating sensing of strain and pressure in dynamic extremes of materials

Experimental measurements of a converging flux conserver suitable for compressing a field reversed configuration for magnetized target fusion

Insight into fiber Bragg sensor response at 100-MHz interrogation rates under various dynamic loading conditions

Simultaneous broadband laser ranging and photonic Doppler velocimetry for dynamic compression experiments

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