Title :
Saturation of 1047- and 1064-nm Absorption in Cr4+:YAG Crystals
Author :
Ridderbusch, Heiko ; Graf, Thomas
Author_Institution :
Robert Bosch GmbH, Stuttgart
Abstract :
To investigate the physical mechanism of the saturation process in Cr4+:YAG crystals we solved the three coupled rate equations which describe the saturable absorber. We experimentally verified this model using two lasers with nanosecond pulses and continuous-wave radiation. We used crystalline and ceramic Cr4+-doped YAG saturable absorbers with various initial transmissions. The ratio between the ground and the excited-state absorption cross section at 1064 nm was measured to be between 3.8 plusmn 0.2 and 4.7 plusmn 0.2 for crystalline and 3.6 plusmn 0.1 for ceramic Cr4+:YAG. The ratio between the above named cross sections at 1047 nm was found to be 6.2 plusmn 0.2 for both crystalline and ceramic Cr4+:YAG. With these results the ground-state and the excited-state absorption cross sections at 1047 nm were calculated to be (9.55plusmn0.01)times10-19 cm2 and (1.54plusmn0.03)times10-19 cm2, respectively
Keywords :
chromium; excited states; ground states; optical materials; optical saturable absorption; 1047 nm; 1064 nm; Cr4+:YAG crystals; Y3Al5O12:Cr; excited state absorption cross section; ground state absorption cross section; optical saturable absorber; Absorption; Ceramics; Chromium; Couplings; Crystallization; Equations; Laser excitation; Laser modes; Laser theory; Optical pulses; Lasers; passive $Q$-switching; saturable absorbers;
Journal_Title :
Quantum Electronics, IEEE Journal of
DOI :
10.1109/JQE.2006.889055
