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 Beam Synchronization |
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The Sydor ROSS Streak Camera is ideally suited for precision synchronization of multiple laser beams, especially important in ICF experiments. Optimal compression will only happen when 1% irradiation uniformity is achieved. This uniformity must be measured on picosecond timescales to ensure success. See Reference Library: “A Self-Calibrating, Multi-Channel Streak Camera for Inertial Confinement Fusion Applications” |
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| Temporal Pulse Shaping & Power Balance |
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For ICF experiments, the temporal pulse shapes of multiple beams need to be balanced to ensure the energy is uniformly distributed in the optimal pulse shape. Only the Sydor ROSS Streak Camera can meet the 1% measurement accuracy requirements of these advanced experiments. |
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| VISAR Measurements |
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The Sydor ROSS Streak Camera is the best measurement device for ICF shock wave studies and velocity measurements. VISAR (Velocity Interferometer System for Any Reflector) experiments use a probe laser beam to illuminate a target and measure reflected light. The Sydor ROSS Streak Camera is capable of measuring shock breakout times at temporal resolutions as low as 20 picoseconds and spatial resolutions as low as 4um. For velocity measurements, the detection limit is <0.1km/sec. See Reference Library: “Line Imaging Velocity Interferometer for Shock Diagnostics at the Omega Laser Facility” |
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| X-Ray Plasma Diagnostics |
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| The Sydor ROSS Streak Camera is currently being modified to run the new PJX streak tube for x-ray plasma diagnostics. With it’s enhanced current handling capability, the Sydor ROSS PJX system will set a new standard for time resolved spatial measurements of plasma physics phenomenon. Information on this product will be available shortly. | ||
