上海电机学院学报
上海電機學院學報
상해전궤학원학보
JOURNAL OF SHANGHAI DIANJI UNIVERSITY
2011年
4期
269-272
,共4页
飞秒激光%纳米周期结构%氧化锌晶体
飛秒激光%納米週期結構%氧化鋅晶體
비초격광%납미주기결구%양화자정체
femtosecond laser%periodic nanostructures%ZnO crystal
介绍了不同波长的飞秒激光脉冲诱导ZnO晶体表面纳米周期结构,分析了纳米结构的周期Λ与激光波长λ的关系。结果表明:纳米结构的周期与材料折射率n有关,其与激光波长成线性,且符合Λ=λ/2n的关系。提出了样品分层的模型,解释了飞秒激光诱导纳米周期结构的形成机理。
介紹瞭不同波長的飛秒激光脈遲誘導ZnO晶體錶麵納米週期結構,分析瞭納米結構的週期Λ與激光波長λ的關繫。結果錶明:納米結構的週期與材料摺射率n有關,其與激光波長成線性,且符閤Λ=λ/2n的關繫。提齣瞭樣品分層的模型,解釋瞭飛秒激光誘導納米週期結構的形成機理。
개소료불동파장적비초격광맥충유도ZnO정체표면납미주기결구,분석료납미결구적주기Λ여격광파장λ적관계。결과표명:납미결구적주기여재료절사솔n유관,기여격광파장성선성,차부합Λ=λ/2n적관계。제출료양품분층적모형,해석료비초격광유도납미주기결구적형성궤리。
The formation of periodic nanostructures on ZnO surface induced by femtosecond laser pulses at different wavelengths is reported in this paper. The relationship between the periods of nanostructures A and laser wavelengths λ is studied, giving a linear relation Λ=λ/2n, where n is the refractive index of the sample. It is proposed that the sample should be separated into a surface layer and a subsurface layer to explain the formation mechanism of the periodic nanostructures induced by femtosecond laser.
