红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2010年
1期
37-41
,共5页
韩敬华%冯国英%杨李茗%张秋慧%刘民才%杨丽茹%朱启华%谢旭东
韓敬華%馮國英%楊李茗%張鞦慧%劉民纔%楊麗茹%硃啟華%謝旭東
한경화%풍국영%양리명%장추혜%류민재%양려여%주계화%사욱동
激光技术%激光诱导损伤%等离子体冲击波%高斯激光脉冲
激光技術%激光誘導損傷%等離子體遲擊波%高斯激光脈遲
격광기술%격광유도손상%등리자체충격파%고사격광맥충
Laser technique%Laser induced damage%Laser plasma shock wave%Gaussian laser pulse
实验研究了纳秒激光脉冲聚焦到K9玻璃内部时产生损伤的特点,并基于激光等离子体冲击波的作用原理进行了理论分析.表面损伤的特点:当激光能量较小时,在入射激光的玻璃前表面不会产生损伤.随着激光能量的增加,会逐渐出现点坑状破坏,坑的中心是一个连接体损伤的核心,围绕该点的是完全融蚀区和最外部的环状破坏区.体损伤的形貌特点是沿激光入射方向呈纺锤状,破坏区中心有一条等离子通道,四周是断裂区和折射率区.在玻璃前表面上高斯激光脉冲产生激光支持爆轰波的特点是中间部分温度最高、运动速度最快、作用压强最大,从内到外逐渐减小,所以破坏程度也逐渐减小,呈辐射状分布.而玻璃内部的体损伤特点是由激光等离子体膨胀产生的冲击波作用由里到外逐渐减小的规律所决定的.
實驗研究瞭納秒激光脈遲聚焦到K9玻璃內部時產生損傷的特點,併基于激光等離子體遲擊波的作用原理進行瞭理論分析.錶麵損傷的特點:噹激光能量較小時,在入射激光的玻璃前錶麵不會產生損傷.隨著激光能量的增加,會逐漸齣現點坑狀破壞,坑的中心是一箇連接體損傷的覈心,圍繞該點的是完全融蝕區和最外部的環狀破壞區.體損傷的形貌特點是沿激光入射方嚮呈紡錘狀,破壞區中心有一條等離子通道,四週是斷裂區和摺射率區.在玻璃前錶麵上高斯激光脈遲產生激光支持爆轟波的特點是中間部分溫度最高、運動速度最快、作用壓彊最大,從內到外逐漸減小,所以破壞程度也逐漸減小,呈輻射狀分佈.而玻璃內部的體損傷特點是由激光等離子體膨脹產生的遲擊波作用由裏到外逐漸減小的規律所決定的.
실험연구료납초격광맥충취초도K9파리내부시산생손상적특점,병기우격광등리자체충격파적작용원리진행료이론분석.표면손상적특점:당격광능량교소시,재입사격광적파리전표면불회산생손상.수착격광능량적증가,회축점출현점갱상파배,갱적중심시일개련접체손상적핵심,위요해점적시완전융식구화최외부적배상파배구.체손상적형모특점시연격광입사방향정방추상,파배구중심유일조등리자통도,사주시단렬구화절사솔구.재파리전표면상고사격광맥충산생격광지지폭굉파적특점시중간부분온도최고、운동속도최쾌、작용압강최대,종내도외축점감소,소이파배정도야축점감소,정복사상분포.이파리내부적체손상특점시유격광등리자체팽창산생적충격파작용유리도외축점감소적규률소결정적.
The characteristics of nanosecond pulsed laser induced damage(LID)in K9 glass were experimentally studied,and the corresponding damage characteristics based on the principle of the interaction between the plasma shock wave and the glass were analyzed as well.The characteristics of the surface damage were that the LID on the surface didn't occur at low incident energy.With the laser pulse energy increasing,the pit shape of LID would occur.In the center of the pit,there was a core,which corres ponded to the bulk damage.Around the core was the melting region,and the outermost zone was the annular fault region.The characteristics of the bulk damage were that the damage shape Was like a spindle along the laser propagation direction,and there was filamentary of plasma channel in the central area,whereas the surrounding areas were melting region,region of varying refractive index and the fracture distribution area.In the central areas of the laser-supported detonation wave induced by the Gaussian laser pulse,the motion velocity was the fastest and the pressure was the strongest since the temperature was the highest.So on the inner surface of the glass action effect of the shock wave became weaker from inside too utside,exhibiting radial distribution.However,as for the characteristics of the bulk damage,it was decided by the law of expansive action of shock wave,which became lower from inside to outside.