光学滤波片Word文档格式.docx
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Bandwidthisawavelengthrangeusedtodenoteaspecificpartofthespectrumthatpassesincidentenergythroughafilter.BandwidthisalsoreferredtoasFWHM(Figure1).
BlockingRange
BlockingRangeisawavelengthintervalusedtodenoteaspectralregionofenergythatisattenuatedbythefilter(Figure2).Thedegreeofitsblockingistypicallyspecifiedintermsofopticaldensity.
Figure1:
IllustrationofCenterWavelengthandFullWidthatHalfMaximum
Figure2:
IllustrationofBlockingRange
OpticalDensity
OpticalDensity(OD)describestheblockingspecificationofafilterandisrelatedtotheamountofenergytransmittedthroughit(Equations1–2).Ahighopticaldensityvalueindicatesverylowtransmission,andlowopticaldensityindicateshightransmission.Figure3depictsthreedifferentopticaldensities:
OD1.0,OD1.3andOD1.5thatshowthehighertheODvalue,thelowerthetransmission.
(1)
(2)
DichroicFilter
ADichroicFilterisatypeoffilterusedtotransmitorreflectlight,dependingonthewavelength;
lightofaspecificwavelengthrangeistransmitted,whilelightofadifferentrangeisreflectedorabsorbed(Figure4).Dichroicfiltersarecommonlyusedforlongpassandshortpassapplications.
Figure3:
IllustrationofOpticalDensity
Figure4:
IllustrationofaDichroicFilterCoating
Cut-OnWavelength
Cut-OnWavelengthisatermusedtodenotethewavelengthatwhichthetransmissionincreasesto50%throughputinalongpassfilter.Cut-onwavelengthisindicatedbyλcut-oninFigure5.
Cut-OffWavelength
Cut-OffWavelengthisatermusedtodenotethewavelengthatwhichthetransmissiondecreasesto50%throughputinashortpassfilter.Cut-offwavelengthisindicatedbyλcut-offinFigure6.
Figure5:
IllustrationofCut-OnWavelength
Figure6:
IllustrationofCut-OffWavelength
OpticalFilterFabricationTechniques
AbsorptiveandDichroicFilters
Thewiderangeofopticalfilterscanbebrokenintotwomaincategories:
absorptiveanddichroic.Thedifferencebetweenthetwodoesnotlieinwhattheyfilter,buthowtheyfilter.Inanabsorptivefilter,lightisblockedbasedontheabsorptionpropertiesoftheglasssubstrateused.Inotherwords,lightthatisblockeddoesnotreflectoffthefilter;
rather,itisabsorbedandcontainedwithinthefilter.Inapplicationswherenoiseinasystemfromunwantedlightisanissue,anabsorptivefilterisideal.Absorptivefiltersalsohavetheaddedbonusofnotbeingveryanglesensitive;
lightcanbeincidentuponthefilterfromawiderangeofanglesandthefilterwillmaintainitstransmissionandabsorptionproperties.
Conversely,adichroicfilterworksbyreflectingunwantedwavelengths,whiletransmittingthedesiredportionofthespectrum.Insomeapplications,thisisadesirableeffectbecauselightcanbeseparatedbywavelengthintotwosources.Thisisachievedbyaddingalayer,ormultiplelayers,ofmaterialofvaryingindexesofrefractiontoexploittheinterferencenatureoflightwaves.Ininterferencefilters,lighttravelingfromalowerindexmaterialwillreflectoffahigherindexmaterial;
onlylightofacertainangleandwavelengthwillconstructivelyinterferewiththeincomingbeamandpassthroughthematerial,whileallotherlightwilldestructivelyinterfereandreflectoffthematerial(Figure7).Foradditionalinformationoninterference,viewOptics101:
Level1TheoreticalFoundations.
Unlikeabsorptivefilters,dichroicfiltersareextremelyanglesensitive.Whenusedforanyangle(s)outsideoftheirintendeddesign,dichroicfilterscannotmeetthetransmissionandwavelengthspecificationsoriginallyindicated.Asaruleofthumb,increasingtheangleofincidencethroughadichroicfilterwillshiftittowardsshorterwavelengths(i.e.towardsbluerwavelengths);
anddecreasingtheanglewillshiftittowardslongerwavelengths(i.e.towardsredderwavelengths).
Figure7:
DepositionofMultipleLayersofAlternatingHighandLowIndexMaterialsontoaGlassSubstrate
ExploringDichroicBandpassFilters
Bandpassfiltersareusedinawiderangeofindustriesandcanbeeitherdichroicorcolorsubstrate.Dichroicbandpassfiltersaremanufacturedbytwodifferenttechniques:
traditionalandhardsputtered,orhardcoated.Bothtechniquesachievetheiruniquetransmissionandreflectionpropertiesbyadepositionofnumerouslayersofalternatinghighandlowindexoffractionmaterialsontoglasssubstrates.Infact,dependingupontheapplication,therecanbemorethan100layersofmaterialdepositedperfaceofagivensubstrate.
Thedifferencebetweentraditional-coatedfiltersandhard-sputteredfiltersisthenumberofsubstratelayers.Intraditional-coatedbandpassfilters,layersofvaryingindexmaterialsaredepositedontomultiplesubstrateswhicharethensandwichedtogether.Forexample,imaginetheillustrationinFigure7repeateduptoandevenmorethan100times.Thistechniqueleadstoathickfilterwithreducedtransmission.Thisreductionintransmissioniscausedbyincidentlighttravelingthroughandbeingabsorbedand/orreflectedbynumeroussubstratelayers.Conversely,inhard-sputteredbandpassfilters,materialsofvaryingindicesaredepositedontoonlyasinglesubstrate(Figure8).Thistechniqueleadstothinfilterswithhightransmission.Foradditionalinformationonfabricationtechniques,viewAnIntroductiontoOpticalCoatings.ViewtheBenefitsofHardCoatingstohelpyouselectthecorrectfilterforyourapplication.
Figure8:
TraditionalFilter(Left)andHard-SputteredFilter(Right)
TypesofOpticalFilters
Toaidinunderstandingthesimilaritiesanddifferencesbetweenthelargevarietyofopticalfiltersavailabletoday,considertenofthemostpopulartypes.Thefollowingselectionguidecontainsabriefdescription,aswellassampleproductimagesandperformancecurvesforeasycomparison.
OpticalFilterSelectionGuide
SampleImage
OpticalFilterType–SampleCurve
BandpassFilters
Bandpassfiltershaveextremelynarrowband(<
2nmto10nm)orbroadband(50nmand80nm)transmittanceacrossthesubstrate.Theyareparticularlyanglesensitive,socareshouldbetakenwhenmountingandplacingthemwithinanopticalsetup.Hardsputteredfiltersshouldbechosentomaximizethetransmissionofselectedwavelengths.
LongpassFilters
Longpassfilterstransmitallwavelengthslongerthanthespecifiedcutonwavelength.Longpassfiltersincludecoldmirrors,coloredglassfilters,andThermosetADC(opticalcastplastic)filters.
ShortpassFilters
Shortpassfilterstransmitallwavelengthsshorterthanthespecifiedcutoffwavelength.ShortpassfiltersincludeIRcutofffilters,hotmirrors,andheatabsorbingglass.
HeatAbsorbingGlasses
Heatabsorbingglasseswilltransmitvisiblelightandabsorbinfraredradiation.Theabsorbedenergyisthendissipatedasheatintotheairaroundtheglass.Forcedaircoolingistypicallyrecommendedtoremovetheexcessheat.Heatabsorbingglasscanalsobeusedasshortpassfilters.
ColdMirrors
Coldmirrorsarespecifictypesofdichroicfiltersdesignedtohavehighreflectivityinthevisiblespectrumwhilemaintaininghightransmissionintheinfrared.Coldmirrorsaredesignedforuseinanyapplicationwhereheatbuild-upcancausedamageoradverseeffects.
HotMirrors
Hotmirrorsarespecifictypesofdichroicfiltersdesignedtohavehighreflectivityintheinfraredspectrumandhightransmissioninthevisible.Hotmirrorsareusedprimarilyinprojectionandilluminationsystems.
NotchFilters
Notchfiltersaredesignedtoblockapre-selectedbandwidthwhiletransmittingallotherwavelengthswithinthedesignrangeofthefilter.Notchfiltersareusedtoremoveasinglelaserwavelength,ornarrowband,fromanopticalsystem.
ColorSubstrateFilters
Colorsubstratefiltersaremanufacturedfromsubstrateswithinherentlydifferentabsorptionandtransmissionpropertiesacrossaspecificspectralregion.Colorsubstratefiltersareoftenusedaslongpassandbandpassfilters.Theboundarybetweentransmissionandblockingislesssharpcomparedtosomecoatingbasedfilters.
DichroicFilters
Dichroicfiltersarecoatedwiththin-filmstoachieveadesiredtransmissionandreflectionpercentageacrossagivenspectrum.Theyareoftenusedascolorfilters(bothadditiveandsubtractive).Dichroicfiltersareslightlyanglesensitivebutaremuchmoreforgivingthaninterferencefilters.
NeutralDensity(ND)Filters
Neutraldensity(ND)filtersaredesignedtoreducetransmissione