Abstract
Gain coefficients are calculated for neon-like gallium and germanium ions. Shorter wavelengths are calculated and predicted to be emitted. The gain coefficients are calculated among 457 energy levels of the neon-like ions. Collisional excitations were calculated through the distorted wave approximations through five electron temperatures Te = 300, 500, 700, 1000 and 1500 eV.
Highlights
It was suggested that coherent X-ray emission could be produced in the collision of highly energetic electrons with multiply charged ions [1]
The first soft X-ray laser amplification was demonstrated in neon-like sellenium [2] in which a high energy neodymium glass laser is used to strike a thin foil of selenium where it was evaporize and create plasma of neon-like selenium
The authors have done a lot of work to calculate the atomic properties and predict the possible laser transitions from different ions [4]-[6]
Summary
It was suggested that coherent X-ray emission could be produced in the collision of highly energetic electrons with multiply charged ions [1]. The high energy electrons in the plasma collide and excite the neon-like selenium ions in the plasma and emit a coherent soft X-ray transition with wavelength 21 nm [3]. The authors have done a lot of work to calculate the atomic properties and predict the possible laser transitions from different ions [4]-[6].
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