Publications by authors named "Bittle W"
Time-resolved x-ray self-emission imaging of hot spots in inertial confinement fusion experiments along several lines of sight provides critical information on the pressure and the transient morphology of the hot spot on the University of Rochester's OMEGA Laser System. At least three quasi-orthogonal lines of sight are required to infer the tomographic information of the hot spots of deuterium-tritium cryogenic layered implosions. OMEGA currently has two time-gated x-ray hot-spot imagers: the time-resolved Kirkpatrick-Baez x-ray microscope and the single-line-of-sight, time-resolved x-ray imager (SLOS-TRXI).
View Article and Find Full Text PDFThe multiterawatt (MTW) laser, built initially as the prototype front end for a petawatt laser system, is a 1053 nm hybrid system with gain from optical parametric chirped-pulse amplification (OPCPA) and Nd:glass. Compressors and target chambers were added, making MTW a complete laser facility (output energy up to 120 J, pulse duration from 20 fs to 2.8 ns) for studying high-energy-density physics and developing short-pulse laser technologies and target diagnostics.
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- Solid-state optical fiducial timing pulse generators enhance streak-camera images by adding precise timing fiducials for time-base correction.
- Current vertical-cavity surface-emitting lasers (VCSELs) can be modulated to produce a 10-GHz pulsed fiducial by interleaving time-delayed light paths.
- This portable generator operates at a wavelength of 680 nm with low pulse jitter and offers various pulse rates, making it ideal for streak-camera calibration and other optical timing applications.