红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2013年
2期
334-338
,共5页
葛伦%华卫红%王红岩%杨子宁%韩海涛
葛倫%華衛紅%王紅巖%楊子寧%韓海濤
갈륜%화위홍%왕홍암%양자저%한해도
铷蒸气激光器%碰撞能量转移%相速率方程%相激光发射速率
銣蒸氣激光器%踫撞能量轉移%相速率方程%相激光髮射速率
여증기격광기%팽당능량전이%상속솔방정%상격광발사속솔
rubidium vapor laser%Energy Pooling%rate equation%laser photon emission rate
为研究高泵浦强度下铷蒸气激光器中的碰撞能量转移效应,建立了考虑碰撞能量转移的铷蒸气激光器速率方程模型.通过计算得到高泵浦强度下(10 kW/cm2),碰撞能量转移不会显著影响激光发射速率.碰撞能量转移强弱与激发态粒子数密度和对应温度下的速率常数有关.随着泵浦强度和激发态粒子数密度提高,碰撞能量转移会减小激光发射速率.但是,在较低泵浦强度、较低粒子数密度条件下,碰撞能量转移对自发辐射的抑制效果更为显著,反而会促使激光发射速率增加.
為研究高泵浦彊度下銣蒸氣激光器中的踫撞能量轉移效應,建立瞭攷慮踫撞能量轉移的銣蒸氣激光器速率方程模型.通過計算得到高泵浦彊度下(10 kW/cm2),踫撞能量轉移不會顯著影響激光髮射速率.踫撞能量轉移彊弱與激髮態粒子數密度和對應溫度下的速率常數有關.隨著泵浦彊度和激髮態粒子數密度提高,踫撞能量轉移會減小激光髮射速率.但是,在較低泵浦彊度、較低粒子數密度條件下,踫撞能量轉移對自髮輻射的抑製效果更為顯著,反而會促使激光髮射速率增加.
위연구고빙포강도하여증기격광기중적팽당능량전이효응,건립료고필팽당능량전이적여증기격광기속솔방정모형.통과계산득도고빙포강도하(10 kW/cm2),팽당능량전이불회현저영향격광발사속솔.팽당능량전이강약여격발태입자수밀도화대응온도하적속솔상수유관.수착빙포강도화격발태입자수밀도제고,팽당능량전이회감소격광발사속솔.단시,재교저빙포강도、교저입자수밀도조건하,팽당능량전이대자발복사적억제효과경위현저,반이회촉사격광발사속솔증가.
In order to study the Energy Pooling process of the rubidium vapor laser, this paper established a rate equation model which took Energy Pooling effect into consideration. Through calculating it was found that when the magnitude of the pump intensity was, the influence of Energy Pooling process on laser photon emission rate was not remarkable. The influencing degree was related to the excited population density and the rate coefficient. With the increasing of pump intensity and excited population density, the Energy Pooling process reduced laser photon emission rate. However, under the conditions of lower pump intensity and lower excited population density, Energy Pooling significantly reduced the spontaneous radiation so that the laser photon emission rate was increased.
