Title :
Saturation in neon- and nickel-like collisional soft-X-ray lasers at low pump energy
Author :
Balmer, Jürg E. ; Tommasini, Riccardo ; Löwenthal, Frank
Author_Institution :
Inst. of Appl. Phys, Berne Univ., Switzerland
Abstract :
We report on the experimental demonstration of saturated X-ray laser output from collisionally pumped Ne-like Fe at 25.5 nm as well as Ni-like Ag and Pd at 14.0 nm and 14.7 nm, respectively, using a 100-ps drive pulse irradiation. A double-prepulse scheme and a 3-m radius-of-curvature target resulted in a gain-length product of gL=16.5 in the case of Fe, With a single prepulse and flat slab targets, gain-length products of 15.3 and 15.8 were obtained for Ag and Pd, respectively. Saturation was also confirmed by the observed reduction in beam divergence with increasing target length. The required drive energy used was only 30 J in a 100-ps pulse, corresponding to an irradiance of 12 TW/cm2. A key role in the achievement of these results was played by the reduction in the roughness of the target surface in the case of the Pd X-ray laser
Keywords :
X-ray lasers; ion lasers; isoelectronic series; neon; nickel; optical pumping; optical saturation; 100 ps; 14 nm; 14.7 nm; 25.5 nm; 30 J; Ag; Fe; Ne-like Fe; Ne-like collisional soft-X-ray lasers; Ni-like Ag; Ni-like Pd; Ni-like collisional soft-X-ray lasers; Pd; Pd X-ray laser; collisionally pumped; double-prepulse scheme; drive energy; flat slab targets; gain-length product; low pump energy; nickel-like collisional soft-X-ray lasers; ps drive pulse irradiation; radius-of-curvature target; saturated X-ray laser output; target length; target surface; Iron; Laser excitation; Laser theory; Laser transitions; Optical pulses; Physics; Plasma x-ray sources; Pump lasers; Surface emitting lasers; X-ray lasers;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/2944.814981
