关键词: 二氧化碳激光器;同轴非稳腔+;光腔稳定性+;涡流管+

Abstract: The beam quality of the unstable resonator of TEA CO2(Transversely Excited Atmospheric Pressure CO2 Laser) coaxial output laser is deteriorated remarkably by the thermal accumulation of the convex mirror.In order to improve the beam quality,a vortex tube cooling system of convex mirror was adopted.The time-varying thermal deformation of convex mirror with a vortex tube cooling system in high energy laser is analyzed by finite element method.The results indicated that the vortex tube cooling system reduces the deformation remarkably with the continuous laser working.The divergence angle was measured experimentally at a average pulse energy of 18.3 J under condition of different frequency and using vortex tube cooling system or not at real time.And the value of β was studied,too.The results show that the value of β was changed from 3.52 to 6.4 without the vortex tube cooling system and from 3.50 to 3.88 with the cooling system under the work frequency of 3 Hz and lasting work time of 300 s.

Key words: Carbon dioxide laser;Unstable resonator+;Resonator stability+;Vortex tube+