激光技术
激光技術
격광기술
LASER TECHNOLOGY
2015年
3期
395-398
,共4页
高胜淼%闫珂柱%韩培高%许春玉%王荣新
高勝淼%閆珂柱%韓培高%許春玉%王榮新
고성묘%염가주%한배고%허춘옥%왕영신
激光光学%周期波纹%辐照%单晶硅%偏振方向%损伤阈值
激光光學%週期波紋%輻照%單晶硅%偏振方嚮%損傷閾值
격광광학%주기파문%복조%단정규%편진방향%손상역치
laser optics%period ripples%irradiation%monocrystalline silicon%polarization direction%damage threshold
为了研究飞秒激光诱导的硅材料周期表面结构,采用了理论分析和实验验证相结合的方法,对波纹周期与入射激光波长之间关系的理论分析计算,得到了单晶硅表面波纹周期约为800nm,研究了1kHz的飞秒脉冲(中心波长800nm,脉宽35fs)加工单晶硅引起的波纹结构。结果表明,在功率密度略大于样品损伤阈值的条件下,单晶硅表面形成了清晰的平行等间距直线周期条纹结构,测得该条纹的周期约为750nm,与所用激光中心波长接近。使用可旋转的格兰-泰勒棱镜改变入射激光的偏振方向,发现周期波纹方向随入射激光偏振方向的改变而改变,条纹方向与飞秒激光的电矢量方向垂直,并且由加工图片看出经辐照过的区域比未经辐照区域干净得多。这一结果对进一步研究激光诱导的周期性表面结构具有参考意义。
為瞭研究飛秒激光誘導的硅材料週期錶麵結構,採用瞭理論分析和實驗驗證相結閤的方法,對波紋週期與入射激光波長之間關繫的理論分析計算,得到瞭單晶硅錶麵波紋週期約為800nm,研究瞭1kHz的飛秒脈遲(中心波長800nm,脈寬35fs)加工單晶硅引起的波紋結構。結果錶明,在功率密度略大于樣品損傷閾值的條件下,單晶硅錶麵形成瞭清晰的平行等間距直線週期條紋結構,測得該條紋的週期約為750nm,與所用激光中心波長接近。使用可鏇轉的格蘭-泰勒稜鏡改變入射激光的偏振方嚮,髮現週期波紋方嚮隨入射激光偏振方嚮的改變而改變,條紋方嚮與飛秒激光的電矢量方嚮垂直,併且由加工圖片看齣經輻照過的區域比未經輻照區域榦淨得多。這一結果對進一步研究激光誘導的週期性錶麵結構具有參攷意義。
위료연구비초격광유도적규재료주기표면결구,채용료이론분석화실험험증상결합적방법,대파문주기여입사격광파장지간관계적이론분석계산,득도료단정규표면파문주기약위800nm,연구료1kHz적비초맥충(중심파장800nm,맥관35fs)가공단정규인기적파문결구。결과표명,재공솔밀도략대우양품손상역치적조건하,단정규표면형성료청석적평행등간거직선주기조문결구,측득해조문적주기약위750nm,여소용격광중심파장접근。사용가선전적격란-태륵릉경개변입사격광적편진방향,발현주기파문방향수입사격광편진방향적개변이개변,조문방향여비초격광적전시량방향수직,병차유가공도편간출경복조과적구역비미경복조구역간정득다。저일결과대진일보연구격광유도적주기성표면결구구유삼고의의。
In order to study periodic structures on Si surface induced by femtosecond laser , the relationship between the ripple period and the incident laser wavelength was analyzed .After theoretical analysis and experimental verification , the ripple period of monocrystalline silicon was calculated to be about 800nm.The ripple structures irradiated by 1kHz femtosecond pulses (center wavelength of 800nm, pulse width of 35fs) were studied.The results show that a set of liner ripple structure with parallel and equal spaces is found on the silicon surface irradiated by pulse laser under the condition that power density is slightly higher than damage threshold of the workpiece .The period of ripples is about 750nm by measurement , close to the center wavelength of laser .When the polarization direction of incident laser is changed by a rotatable Glan-Taylor prism , the direction of periodic ripples is changed accordingly . The direction of ripple is perpendicular to the electric vector direction of the femtosecond laser .The processing images show that the irradiated area is much cleaner than the non-irradiated area .The investigation is significant for further study of laser-induced periodic surface structures.
