物理学报
物理學報
물이학보
2013年
4期
341-348
,共8页
刘小亮%孙少华%曹瑜%孙铭泽%刘情操%胡碧涛*
劉小亮%孫少華%曹瑜%孫銘澤%劉情操%鬍碧濤*
류소량%손소화%조유%손명택%류정조%호벽도*
飞秒激光%气压%等离子体光谱%激光传输
飛秒激光%氣壓%等離子體光譜%激光傳輸
비초격광%기압%등리자체광보%격광전수
femtosecond laser pulses%pressure%plasma spectra%laser propagation
在低于一个标准大气压的条件下对飞秒激光产生的N2等离子体光谱进行了实验研究.结果表明,各种样品气压下的激光N2等离子体光谱均表现为连续谱和线状谱的叠加.随着样品气压的降低,连续谱和原子谱线的强度经历了由缓慢增强发展为缓慢降低再到迅速降低的过程,而正一价离子谱线强度呈现逐步增强的特征.在气压低于0.3 atm (1 atm=101325 Pa)时,出现了正二价态的离子谱线.给出了低压N2等离子体对于飞秒激光传输和能量吸收的物理特性,并初步讨论了低压等离子体通道特性.这些结果有助于加深了解飞秒激光等离子体的特性和机理,特别是给出了在实验上测量不同价态离子光谱的条件,为今后的研究提供了有益的实验依据.
在低于一箇標準大氣壓的條件下對飛秒激光產生的N2等離子體光譜進行瞭實驗研究.結果錶明,各種樣品氣壓下的激光N2等離子體光譜均錶現為連續譜和線狀譜的疊加.隨著樣品氣壓的降低,連續譜和原子譜線的彊度經歷瞭由緩慢增彊髮展為緩慢降低再到迅速降低的過程,而正一價離子譜線彊度呈現逐步增彊的特徵.在氣壓低于0.3 atm (1 atm=101325 Pa)時,齣現瞭正二價態的離子譜線.給齣瞭低壓N2等離子體對于飛秒激光傳輸和能量吸收的物理特性,併初步討論瞭低壓等離子體通道特性.這些結果有助于加深瞭解飛秒激光等離子體的特性和機理,特彆是給齣瞭在實驗上測量不同價態離子光譜的條件,為今後的研究提供瞭有益的實驗依據.
재저우일개표준대기압적조건하대비초격광산생적N2등리자체광보진행료실험연구.결과표명,각충양품기압하적격광N2등리자체광보균표현위련속보화선상보적첩가.수착양품기압적강저,련속보화원자보선적강도경력료유완만증강발전위완만강저재도신속강저적과정,이정일개리자보선강도정현축보증강적특정.재기압저우0.3 atm (1 atm=101325 Pa)시,출현료정이개태적리자보선.급출료저압N2등리자체대우비초격광전수화능량흡수적물리특성,병초보토론료저압등리자체통도특성.저사결과유조우가심료해비초격광등리자체적특성화궤리,특별시급출료재실험상측량불동개태리자광보적조건,위금후적연구제공료유익적실험의거.
The spectra of N2 plasma induced by a femtosecond pulsed laser are studied experimentally at sub-atmospheric pressure. The results show that the spectra of laser-induced plasmas for all sample pressures are composed of continuous spectra and line spectra. As the sample pressure is reduced the intensities of continuous spectra undergo the transition from slow increase to rapid decrease;on the other hand, the intensities of N+spectra increase significantly with the decrease of pressure. The spectra of N++species are observed when the pressure is lower than 0.3 atm. The behaviors of the femtosecond laser propagation and energy absorption in N2 plasma at sub-atmospheric pressure are also given and the feature of the laser-induced plasma channel is briefly discussed. These results are helpful for better understanding the laser-induced plasma characteristics, especially provide the clue to the experimental measurement conditions for different charged species, which is useful for the future corresponding experimental research.