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Simplified laser-driven flyer plates for shock compression science
Kathryn E. Brown
, William L. Shaw
, Xianxu Zheng
,
Dana D. Dlott
Chemistry
Materials Research Lab
Research output
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peer-review
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Keyphrases
Ablative Layer
33%
Absorber
33%
Beam Homogenization
33%
Beam Homogenizer
33%
Commercially Available
33%
Diffractive
33%
Emission Spectroscopy
66%
Flight Process
33%
Flyer
100%
Flyer Plate
66%
Glass Substrate
33%
Hugoniot Equation of State
33%
Impact Initiation
33%
Impact Processes
33%
Impact Time
33%
Kinetic Energy
33%
Laser Fluence
33%
Laser-driven Flyer Plates
100%
Launch System
33%
Launching Process
33%
Metal Foil
33%
N-of-1
33%
Nanoscopic
33%
Nd-YAG Laser
33%
One-based
66%
Optical Damage
33%
Optical Fiber
33%
Optics
33%
Oxidizer
33%
Plate System
33%
Polymer Film
33%
Punching
33%
Reactive Materials
33%
Shock
33%
Shock Compression
100%
Simple Metals
33%
Simplified System
66%
State Observation
33%
Steady Shock
33%
Time Variation
33%
Velocimeter
33%
Velocity Variation
33%
Window Glass
33%
YAG Laser
33%
Engineering
Diffusive
100%
Doppler Velocimeter
100%
Equations of State
100%
Fiber Optics
100%
Glass Substrate
100%
Homogenizer
100%
Impact Process
100%
Investigated Effect
100%
Laser Fluence
100%
Oxidizer
100%
Plate System
100%
Punching
100%
Reactive Material
100%
State Measurement
100%
Physics
Fiber Optic
50%
Fluence
50%
Homogenizing
50%
Hugoniot Equation of State
50%
Kinetic Energy
50%
Optics
50%
YAG Laser
100%
Material Science
Emission Spectroscopy
100%
Fiber Optics
50%
Homogenization
50%
Polymer Films
50%
Surface (Surface Science)
50%