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时间:2020-11-25
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1、(1)用arepetitionrateof1kHz.awavelengthof800nm.40×,NA=0.65microscopeobjective在LiNbO3中能诱导负的折射率改变FIGURE1Refractiveindexprofilesoftwotypicalwaveguidesmeasuredwithashearinginterferencemicroscopeatawavelengthof550nm.(a)Δneand(b)Δnoofawaveguideinz-cutLiNbO3writtenwith1μJ,420fspulses.(c)Δnean
2、d(d)Δnoofawaveguideinanx-cutcrystalwrittenwith0.2μJ,380fspulses.(e)Waveguidemodefieldatawavelengthof633nmcorrespondingtotherefractiveindexprofileof(c)Bothstructuresshowanincreasesolelyintheextraordinaryindexne.Theordinaryindexnoisdecreasedinbothcrystals.(上图中ne.均有上升,而no均有下降)Atlowerint
3、ensities,anincreaseoftheextraordinaryrefractiveindexnewasobservedthatcanbeusedtoformhigh-qualityopticalwaveguides.Higherintensitiescauseadecreaseofnoandneaccompaniedbystressinthesurroundingcrystalaswellasmaterialdamage.(在激光强度较高的时候no和ne.均有下降)Structuralpropertiesoffemtosecondlaser-indu
4、cedmodificationsinLiNbO3j.burghoff1,_h.hartung1s.nolte1a.t¨unnermann1,2(2)在UBK7(74SiO210B2O315Na2O/K2O1BaO)FP10(10Sr(PO3)235AlF330CaF215SrF210MgF2)FP20(20Sr(PO3)230AlF322CaF218SrF210MgF2)中会产生负的折射率Femtosecond-laser-writinginvariousglassesD.Ehrta,*,T.Kittela,M.Willb,S.Nolteb,A.Tu¨nnerm
5、annbJournalofNon-CrystallineSolids345&346(2004)332–337激光光源为:约50fspulseswitharepetitionrateof1kHzatawavelengthof800nmwasused文中说到折射率的改变不仅和写入波导的条件有关,还和玻璃的组份和结构有一定的关系。(3)在Nd3t-dopedBK7glass中会有折射率的降低。LaserwritingofwaveguidesinphotosensitiveglassesHeikeEbendorff-HeidepriemOptoelectronicsRe
6、searchCentre,UniversityofSouthampton,SouthamptonSO171BJ,UK激光光源为UV-laser244nm(4)在商业铒镱共掺磷酸盐玻璃中,在在低重频1KHz的飞秒激光下,可以实现正和负的折射率改变OriginoftherefractiveindexmodificationoffemtosecondlaserprocesseddopedphosphateglassTheoriginofthelocalrefractiveindexmodificationinfemtosecondlaserinscribedstruc
7、tureshasbeeninvestigatedwithconfocalmicrofluorescenceimaging.Wehaveidentifiedtheoriginofboth,positiveandnegativerefractiveindexchangesinacommercialEr-Ybcodopedphosphateglassuponirradiationinthelowrepetitionrateregime(1kHz).(5)Femtosecondtime‐resolvedrefractiveindexchangesinCdS(0.75)S
8、e(0.25)andCd
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