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Now,justasacurvedreflegsurfaageofa,soacurvedtrasurface.HoensisshowninFigure11.Abundleofraysfromapoiarebroughttofocusattheimage.hatdoesthis-ithasthesamecrossseasalentil.Thisistheinoftheword‘lens’.
Leousinimage-fdeviyoureyestomobilephoicalmiagingishavetwopoself,andalightdetector,whivertsthelightinto,typielectrial.Inthecaseofyoureyes,thisistheretihemobilephoisanarrayofminutepiecesofsilithatformsolid-statelightsensors.
11.Imageformationbyaraybundleusingalens.
Thelehesedevicesarediferent,ofcourse,butthebasicipleisthesameforeaeverycasethelooftheleothedetectorisakeydesiger,asisthefogthofthelenswhitifiesits‘ray-bendihefogthissetbythecurvatureofthesurfacesofthelensanditsthiess.Mlycurvedsurfadthickermaterialsareusedtomakelehshortfogths,andtheseareusedusuallyiswhereahighmagnifiisneeded,suchasamicroscope.
&herefradexofthelensmaterialusuallydependsonthecht,raysofdiferentcoloursarebeamountsatthesurfagtoafocusforeachcoliion.Thisgivesahas‘haloes’ofdiferentcolouraroundit.Forexample,onlyoneaybeproperlyinfocusataparticulardetee;theotherswillbeoutoffodformthehalo.Whetherthisaticaberrationisanimportadepeicularappli.
&hemostfamiliar,aimpe-fihistypeistheeye.Itsistsofafrsurface-thedanadjustablelens,easyoufothingsatdiferentdistaheseelementsfesohebackoftheeye.
Historically,theformatioheeyewasofgreati,sibyDescartes(seeFigure12)showedthattheimagehtobjectsidedown.Ofcourse,wedoheobjethisway,soitwasclearthatthebraiakessomeremarkableprogbetweeinalsignalsaioernalworld.
Optistruments
Asmanyofusarealltooaware,theabilityoftheeyeth-qualityimages(sharp,undistorted,andincradeasweage.Oapplisofoptistrumentsedasanaidtosightundersuchces.Eyeglassessthefirstoptiology,purportedlyiedbyRogerBaadfriar’ofOxford—iury.
&iveelemeensimplelenses,placedeitherisomedistance(afewmillimetres)fromtheea(thefroheeyeball),or‘tases’placed,asthes,intactwiththebothcasestheimagingsystemispound,thatis,itsistsofseveralelemeerhedtheinternalos.Thisfunprovidesthenecessarydegreesoffreedomtoostkindsofvisioheexteropeheimperfesoftheihisalsobedoeringtheshapeofthefroheeyebylasersurgery.Oneapproach,laser-assistediomileusis(LASIK),usesthelasertoablatepartofthesurfaceoftheea.Thisgesitscurvature,therebyalteringitsfogpower,andthustheimage-fcapabilitiesoftheeye.
Manye-fisworkonverysimilarpriheeye.Theobilephone,forinstance,hasalehesurfaceofthephone,andasili-basedphotodetectorarrayihedevice.Themobilephoenverysmall,aprovideimagesofsuffitqualitythattheyareintelligible,andthusmakeseheyarepostedohisrequiresthatboththedetectorarrayandtheimagingsystemareadequatetothetaskahigh-qualityimage.Thequalityoftheimagedependsontwothings—thesizeandtheethearray,ayoftheopticalsystemtocreateasharp,undistewithallcolourspristered.Thatis,animagefreefrom‘aberrations’.
12.Descartes’experimenttoshowtheimageformedbyaneyeisupsidedown.
Thespeofthenumberof‘pixels’ofthedetectorarrayisoftenusedasaproxyforthequalityoftheimage.A24megapixeleinwhichthedetectorarrays24millionsensors)isofteerthanan8megapixelone.Apixelbethoughtofasthesizeoftheimageofapoiispossibletoresolveonlyasmallnumberofpoihereareosihenitishardtotellmuchabouttheobject.Themorepixels,theonlyiftheimagingsystemproduagethatissmallerthaorelement.
Limitstoimaging
Ihtury,theGermaErnstAbbedevisedasimplerulefortheminimumsizeofaliagihenkerionsaysthatthesize(S)oftheimageofapoiisproportionaltothewavelength(λ)ofthelightillumimultipliedbythefogth(f)ofthelensaheleer(D):
S=1.22S×λfD.
Thus,lehabigdiameterandashortfogthwillproduiestimagesofpois.It’seasytoseethataboutthebestyouaemyoucouldactuallymakeisanimagesizeofapproximatelyohisisthefuallimittothepixelsizeforleoptistruments,suchasdbinoculars.
Designingandbuildingimagideliverhigh-qualityimageshasbeeofmanyimportantapplisofoptics.Microsple,areusedinapplibiologicalresearchtery.Theearliestmicroscopesusedverysimplelenses—small,nearlysphericalpolishedglassshapesthatprovidedearlyexperimeHookeihturywiththemeanstoexploreuresofthenaturalworld,toosmalltobeseenbytheunaidedeye.Hisdrawingofaflea,showninFigure13,wasarevelationofthepowerofteologytoenablenewdiscovery.
Modernresearchmiuchmoresophisticateddevices.Theyulti-elementpouageswithpixelsveryclosetothewavelengthoftheilluminationlight—justattheAbbelimit.Figure13alsosholeofossibleusingammicroscope.Itisaageofthenervoussystemofafruit-flylarva,abouttohatch,madebyviewiiedinthecells.
&eriooallopticalsystemsinwhichtheimagebrightnessisproportioheobject.Theseareearsystems.Butit’spossibletogobeyondthislimitbymeansofems,wheretheimagebrightnessisproportionaltothesquareorevenmorepliofthehtness.Afullerexplanatiosrequiresknowingabitmoreaboutthewavemodeloflight,whichisthesubjectofChapter3.
Optigsystemsofsimilarpropertiesayareusedinanappliakingofputerdividualeleiccircuitelemeremelytiny.
13.Hooke’sdiagramofafleaobservedbymeansofanearlymicroscope(top),andthenervoussystemofafruit-flylarva(bottom)takenwithamodernfluorescemicroscope.
Awiregtwotransistorsonachipmayhaveadiameterofonly250res(nm).(Areisohofametre,or10-9Foranhairisapproximately10,000nmiheplexarrayofdevidsislaidoutonasiliwaferbymeansofaprocesscalledlithography.Essentially,thechiplayoutisdrawnatalargeenoughscaletobevisibletothehumahenademagnifiedimageisprojetothechip.Theimageisettoasurfagonthewafer,andaseriesofchemicalprocessesthenmapstheimageintorealdevices.Theimagibeabletoprovideextraordiionintheimage—withpixelsizesoftheorderofthelihedevitainiioirewaferisarealge,requiringmasproreduceallaberrationstoanabsoluteminimuAnexampleofsusisshowniioninFigure14,showiiplicityoflesandraypaths.
Attheotherextreme,bothground-aelescopesforastronomyareverylargeihrelativelysimpleoptigpoengofjustoingsurfadasimple‘eyepiece’toadjusttherayssoastomakebestuseoftheavailabledetectors.Thedistiureoftheseimagiheirsize.Themostdistantstarsarevery,veryfaint.HardlyamakesittotheEarth.Itisthereforeveryimportanttocollectasmuchofitaspossible.Thisrequiresaverybiglensormirror—severalteresormoreiisnotpracticaltobuildlehissize,heyetelescopes.Itisalsoolookatdistantstarsftimeiherenoughlightte.Aoanotherprrouelescopes:theatmosphereisnotstatigesihwiure,andmoisture.Theseflustendtomakeraysdeviatefromtheirstartotelescope,gthestarto‘twislightisdeflelyontoaorduetoatmospherice.
&odealwiththisproblemistoputthetelescopeoutsidetheatmosphere,iheHubbleSpaceTelesexample.Itproducedspectacularimagesofdistantstars,galaxies,andnebulae,showiraordinarystrudmovementinthefarreachesofspace.However,optieershaveiwodecadesdevisedacleverwaytodealwiththisprrouelescwithvisiblelight.Whattheydoistomakethetelesirrmeofeatbeingadjustable.Thusitispossibleto‘steer’therayshittisofthetelesirrorsothattheyallhitthedetector.Ifyoumeasurethedeviationthatarayexperieraversestheatmosphere,thenyoufigurethemirrortopedeviation.Andthat’swhattheeheymeasurehowlightfromaguidestar—anartificiallightsourtheupperatmosphere—isdistortedainformationtoadaptthetiltments.InthiswayimagesrightattheAbbelimitbeproduced.Spacetelescopesarestillhough,toprobethewavelengthranges,suchasX-raysandUV,thatareabsorbedbytheatmosphere,andseveralmissionsfornelaheNorthAmeriSpaASA)andtheEuropeanSpacy(ESA).
14.Seofalensusedforphotolithographyofputerchips.Itorethaydiferes,andproducesimagesof500nminsizeusinglightoflessthanhalfthatwavelength.
&erialsandsuperlenses
FormaitistshavebeenfasatedwiththequestionofwhatmakesagoodopticalsysteIstherealensthattheperfectimageofahisquestionhasintriguedmaphysiesClerkMaxwellinEnglaurytointheUSSRihtury.Veselagothoughtaboutmaterialsthatbehaveinstrangeways—inwhichlightbendsinaositetothatprediell’slaw.Snell’slawisbasedoiverefradicesthatarefoundinaterials.Veselagosideredmaterialswitha‘iveindex.Suchmaterialsbemadeupoftinystructuresthatareeachlessthahoflightihiskindofspestrugives‘metamaterials’suusualopticalproperties.Inparticular,refratakesplaceattheiweennormalaerialssuchthatthelightraysbeedirewithrespecttotheiweentwonormalmaterials.
&raiveihesematerialsgiobendlightraysiions,allowingtheiningrayswhiallybescatteredbytheobjesteadbeguidedaroundit.IishphysicistSirJohnPeispossibletobuildaninvisibilitygthesedesigerials.
Aheunusualpropertiesmetamaterialspossessistheabilitytesofobjectsthatareveryclosetoaslabofthemetamaterial.Evenaflatsurfaceissuffiakealens,whichmakesthemsuitedtoviewiis—so-ostructures,becausetheyhavesizesoftheorderoftensofhisisthe21st-turyversioeology,andsunleashasimilarlyfruitfuleraofdiscovery.
Alloftheimagingsystemsdesthischaptermaketwo-dimensisofobjects.That’snormallytheeriehinkaboutimages—asflatpictures.Butwhatifitwerepossibletoceiveofasystemthatakethree-dimensionalimages?Remarkablyitis,butthatrequiresadeeperviewoflightitself,illsiderinChapter3.
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