Shaped pulse electric-field construction and interferometric characterization: The SPECIFIC method
Matthew A. Coughlan, Mateusz Plewicki, Stefan M. Weber, Pamela Bowlan,, Rick Trebino, and Robert J Levis
TL;DR
The paper introduces SPECIFIC, a novel method combining pulse-shaping, spatial light modulation, and interferometric measurement to generate and characterize complex laser pulses for advanced coherent control.
Contribution
It presents a new integrated approach for constructing and measuring shaped laser pulses with high time-bandwidth products, enabling more precise control in experiments.
Findings
Successfully generates complex shaped pulses with time-bandwidth product >5
Provides a single-shot interferometric measurement scheme for pulse characterization
Enables improved coherent control experiments
Abstract
A method is reported for creating, generating, and measuring parametrically shaped pulses for time-bandwidth product >>5, which consists of a parametric pulse-shaping algorithm, a spatial light modulation system and a single shot interferometric characterization scheme (SEA TADPOLE) . The utilization of these tools marks the inception of a new method called SPECIFIC, shaped-pulse electric-field construction and interferometric characterization, capable of producing complex shaped laser pulses for coherent control experiments.
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Taxonomy
TopicsLaser-Matter Interactions and Applications · Advanced Fiber Laser Technologies · Laser-Plasma Interactions and Diagnostics