Abstract
Abstract Single-shot laser-induced damage threshold (LIDT) measurements of multi-type free-standing ultrathin foils were performed in a vacuum environment for 800 nm laser pulses with durations τ ranging from 50 fs to 200 ps. The results show that the laser damage threshold fluences (DTFs) of the ultrathin foils are significantly lower than those of corresponding bulk materials. Wide band gap dielectric targets such as SiN and formvar have larger DTFs than semiconductive and conductive targets by 1–3 orders of magnitude depending on the pulse duration. The damage mechanisms for different types of targets are studied. Based on the measurement, the constrain of the LIDTs on the laser contrast is discussed.
Highlights
The application of chirped-pulse amplification (CPA) in solid lasers has realized the output of lasers with femtosecond duration and petawatt-class power[1,2]
When the thicknesses of the foils are in the range of several nanometers to a few tens of nanometers, quasi-monoenergetic ions can be generated in the scheme of radiation pressure acceleration (RPA)[15,16,17]
We present a study on the single-shot laser-induced damage threshold (LIDT) of multi-type free-standing ultrathin foils for a laser pulse with wavelength of 800 nm and pulse durations from 50 fs to 200 ps
Summary
The application of chirped-pulse amplification (CPA) in solid lasers has realized the output of lasers with femtosecond duration and petawatt-class power[1,2] Interaction of such ultra-intense laser pulses with thin foils has generated protons up to 100 MeV and carbon ions close to 600 MeV LIDTs of the ultrathin foils are considered the same as that of corresponding bulk materials. Our results show that the laser damage threshold fluences (DTFs) of all the ultrathin foils are significantly lower than that of corresponding bulk materials. By comparing the damage intensity of the targets with the prepulse intensity of a laser system, the constraint of targets’ LIDTs on the laser contrast can be obtained in a simple way
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