Grazing incidence pumping for high efficiency x-ray lasers

Abstract: Over the last decade, most laser-driven collisional excitation x-ray lasers have relied on the absorption of the pump energy incident at normal incidence to a pre-formed plasma. The main advantage is that the inversion can be created at various plasma regions in space and time where the amplification and ray propagation processes are best served. The main disadvantage is that different plasma regions regardless of the contribution to the inversion have to be pumped simultaneously in order to make the laser wor… Show more

“…[4,5] The pumping efficiency has been further improved by using the grazing-incidence pumping (GRIP) scheme. [6,7] In this scheme, a prepulse (or multi-prepulses) first normally irradiates a slab target to generate a plasma column. After an appropriate delay time, a short main pulse irradiates the preformed plasma at a predetermined grazingincident angle to generate the population inversion.…”

Numerical study of the Ne-like Cr x-ray laser at 28.6 nm

“…[4,5] The pumping efficiency has been further improved by using the grazing-incidence pumping (GRIP) scheme. [6,7] In this scheme, a prepulse (or multi-prepulses) first normally irradiates a slab target to generate a plasma column. After an appropriate delay time, a short main pulse irradiates the preformed plasma at a predetermined grazingincident angle to generate the population inversion.…”

Numerical study of the Ne-like Cr x-ray laser at 28.6 nm

Optimum electron temperature and density for short-wavelength plasma-lasing from nickel-like ions