实验力学
實驗力學
실험역학
JOURNAL OF EXPERIMENTAL MECHANICS
2007年
3期
258-266
,共9页
紫外干涉仪%频散性%相干长度%微型光刻技术
紫外榦涉儀%頻散性%相榦長度%微型光刻技術
자외간섭의%빈산성%상간장도%미형광각기술
UV interferometer%dispersion%coherence%microlithography
用于微型光刻技术中的多数紫外线(UV)或深紫外线激光器,无论是基于气体的准分子或二极管泵浦固态 (DPSS) 激光器, 其输出频谱均较宽.与此同时, 能传送紫外或深紫外光的多数光学材料均具有较高度频散性(即它们的折射率,n(λ), 随波长λ变化) .在这种情况下构建一台紫外干涉仪比那拥有狭窄光谱的激光和几乎恒定折射率的光学材料的情况要复杂得多.本文描述一项激光干涉技术,据此可以补偿光学材料的高频散性,从而构建传统意义上所定义的相干长度之外的激光干涉仪.给出理论上的陈述,并提供初步实验结果.本文最后讨论了此情况下干涉条纹的对比度、激光相干长度, 以及如何控制光源的时域不稳定性和空间不均匀性的方法.
用于微型光刻技術中的多數紫外線(UV)或深紫外線激光器,無論是基于氣體的準分子或二極管泵浦固態 (DPSS) 激光器, 其輸齣頻譜均較寬.與此同時, 能傳送紫外或深紫外光的多數光學材料均具有較高度頻散性(即它們的摺射率,n(λ), 隨波長λ變化) .在這種情況下構建一檯紫外榦涉儀比那擁有狹窄光譜的激光和幾乎恆定摺射率的光學材料的情況要複雜得多.本文描述一項激光榦涉技術,據此可以補償光學材料的高頻散性,從而構建傳統意義上所定義的相榦長度之外的激光榦涉儀.給齣理論上的陳述,併提供初步實驗結果.本文最後討論瞭此情況下榦涉條紋的對比度、激光相榦長度, 以及如何控製光源的時域不穩定性和空間不均勻性的方法.
용우미형광각기술중적다수자외선(UV)혹심자외선격광기,무론시기우기체적준분자혹이겁관빙포고태 (DPSS) 격광기, 기수출빈보균교관.여차동시, 능전송자외혹심자외광적다수광학재료균구유교고도빈산성(즉타문적절사솔,n(λ), 수파장λ변화) .재저충정황하구건일태자외간섭의비나옹유협착광보적격광화궤호항정절사솔적광학재료적정황요복잡득다.본문묘술일항격광간섭기술,거차가이보상광학재료적고빈산성,종이구건전통의의상소정의적상간장도지외적격광간섭의.급출이론상적진술,병제공초보실험결과.본문최후토론료차정황하간섭조문적대비도、격광상간장도, 이급여하공제광원적시역불은정성화공간불균균성적방법.
Most ultraviolet (UV) and deep UV lasers, either gas-based excimer or diode pumped solid state (DPSS), exhibit wide spectrum in their laser output. On the other hand, most optical materials that are capable of transmitting the UV or deep UV wavelengths are highly dispersive (i.e. their refractive indices, n(λ), vary with the laser wavelength, λ). Constructing an interferometer under these conditions therefore requires a different concept than that with a laser of very narrow spectrum and optical materials of almost constant n(λ). We describe in this paper a technique based on which a laser interferometer can be built up beyond traditionally defined coherence length of the laser. A theory is mathematically derived and preliminary experimental results are provided. Discussions on fringe contrast, coherence length, and laser source instability and non-uniformity are also provided.