Generation of intense soft X-rays from capillary discharge plasmas

Abstract: X-ray lasing through high voltage, high current discharges in gas filled capillaries has been demonstrated in several laboratories. This method gives highest number of X-ray photons per pulse. The fast varying current and the j x B magnetic force compress the plasma towards the axis forming a hot, dense, line plasma, wherein under appropriate discharge conditions lasing occurs. At Laser Plasma Division, RRCAT, a program on high voltage capillary discharge had been started. The system consists of a 400 kV Marx … Show more

“…Then, a comparison of Figure 6a,b shows that in the transient electron collisional excitation scheme, inversion (gain formation) happens because the collisional excitation and de-excitation processes of the upper and lower levels occur at different rates. The previous claim [42,43] of the faster radiative decay of the lower level than the upper level (A 10 > A 21 ) is thus one aspect of the lasing. It is shown that at the optimum electron density with increasing the temperatures up to 400 eV, the gain is increasing.…”

Optimum Pump Pulse Duration for X-Ray Ar-Plasma Lasing

“…Then, a comparison of Figure 6a,b shows that in the transient electron collisional excitation scheme, inversion (gain formation) happens because the collisional excitation and de-excitation processes of the upper and lower levels occur at different rates. The previous claim [42,43] of the faster radiative decay of the lower level than the upper level (A 10 > A 21 ) is thus one aspect of the lasing. It is shown that at the optimum electron density with increasing the temperatures up to 400 eV, the gain is increasing.…”

Optimum Pump Pulse Duration for X-Ray Ar-Plasma Lasing

Characterization of the 46.9-nm soft X-ray laser beam from a capillary discharge