Úvod
In1666,BritishscientistNewtonfirstrevealedthechromaticnatureoflightandthesecretofcolor.Heusedexperimentstoshowthatsunlightisamixedlightofvariouscolors,andfoundthatthecoloroflightdependsonthefrequencyoflight.
Číslo na barevném kroužku označuje frekvenci odpovídajícího barevného světla. Jednotka frekvence Hz (THz) a vlnová délka je jednotka nanometr (nm). Barvy v každém dvou protilehlých sektorech na barevném kroužku jsou navzájem symetrické.
Themainnaturallightsourceofvisiblelightisthesun,andthemainartificiallightsourceisincandescentobjects(especiallyincandescentlamps).Thevisiblespectrumtheyemitiscontinuous.Thegasdischargetubealsoemitsvisiblelight,anditsspectrumisdiscrete.Variousgasdischargetubesandfiltersareoftenusedasmonochromaticlightsources.
Rozsah
Electromagneticwaveswithdifferentfrequenciescausedifferentcolorperceptionsinhumaneyes.
Červené | 385~482THz | 780-622 nm | |
oranžový | 482~503THz | 622-597 nm | |
Žlutá | 503~520THz | 597-577nm | |
zelená | 520~610THz | 577-492 nm | |
modrá, indigová | 610~659THz | 492-455 nm | |
Nachový | 659~750THz | 455 až 400 nm |
Thefrequencyofvisiblelightis3.8×1014~7.5×1014Hz(380~750THz).
Charakteristika
Throughresearch,itisfoundthatthecolorlightalsohasthefollowingcharacteristics:
1.Thecomplementarycolorsaremixedinacertainproportiontoobtainwhitelight.Forexample,bluelightandyellowlightaremixedtogetwhitelight.Inthesameway,themixtureofcyanlightandredlightisalsowhitelight.
2.Anycoloronthecolorringcanusethetwokindsofmonochromaticlightsonitsadjacentsides,andcanevenbecopiedfromthetwokindsofmonochromaticlightsofthenextneighbors.Ifyellowlightandredlightaremixedtogetorangelight.Itismoretypicalthatredlightandzelenálightmixtobecomeyellowlight.
3.Ifyouchoosethreeindependentmonochromaticlightsonthecolorring.Itcanbemixedintovarioustonesthatmayappearindailylifeindifferentproportions.Thesethreemonochromaticlightsarecalledthreeprimarycolors.Thethreeprimarycolorsinopticsarered,zelená,andblue.Itshouldbenotedherethatthethreeprimarycolorsofthepigmentarecyan,magenta,andyellow.However,thechoiceofthethreeprimarycolorsiscompletelyarbitrary.
4.Whenthesunlightilluminatesanobject,thelightofacertainfrequencyisabsorbedbytheobject,andthecolor(reflectedlight)displayedbytheobjectisthecomplementarycolorofthelight.Ifthesunshinesontheobject,iftheobjectabsorbsthevioletlightof435~400nm,theobjectwillappearyellow-zelená.
Záření viditelného světla
Záření viditelného světlagenerallyreferstotheradiationinthe0.78~0.4micronbandinthesolarradiationspectrum,consistingofred,orange,yellow,zelená,andblueItiscomposedofsevencolorsoflightsuchas,indigoandpurple.Itisthenecessaryandeffectivesolarradiationenergyforzelenáplantstocarryoutphotosynthesis.Thevisiblelightradiationreachingthegroundsurfacevarieswithatmosphericturbidity,sunheight,cloudcoverandweatherconditions.Záření viditelného světlaaccountsforabout45-50%ofthetotalradiation.
aplikace
Technologie dálkového snímání
Viditelné světloremotesensing(visiblespectralremotesensing)meansthattheworkingbandofthesensorislimitedtotherangeofvisiblelight(0.78~0.4microns)RemoteSensingTechnology.
Thevisiblelightrangeoftheelectromagneticspectrumisbetween0.78and0.4microns,whichisthemostcommonlyusedworkingbandintraditionalaerialphotographyreconnaissanceandaerialphotographysurveyingandmapping.Becausethecolorsensitivityrangeofphotosensitivefilmisjustinthisfrequencyrange,black-and-whitefull-colororcolorimageswithhighgroundresolution,interpretationandmapdrawingperformancecanbeobtained.However,duetotheextremelimitationsofthesun'silluminationconditions,coupledwiththesuccessiveemergenceofinfraredphotographyandmulti-bandremotesensing,visiblelightremotesensinghasextendedtheworkingbandtothenear-infraredregion(approximately0.9microns).Theimagingmethodhasalsodevelopedfromasinglephotographicimagingtoincludeblack-and-whitephotography,infraredphotography,colorphotography,colorinfraredphotography,multi-bandphotographyandmulti-bandscanning,anditsdetectioncapabilitieshavebeengreatlyimproved.Viditelné světloremotesensing,markedbytheapplicationofframe-typeaerospacecameras,hasgreatdevelopmentpotentialforspacephotogrammetry.
Komunikační technologie
Viditelné světlocommunicationtechnologyisanewzelenáinformationtechnologythatusestherapidresponsecharacteristicsofLEDstoachievewirelesshigh-speeddatatransmission.Thedigitalsignalismodulatedtothepowerline,andthevisiblelightflashesquicklythroughthecommunicationmoduleinstalledintheLEDlamptorealizethetransmissionofinformation.Thiskindoffastflickerreaches300Mbit/s,andthehumaneyecannotperceivethiskindofflicker.Second,theflashinglightisreceivedbythephotosensitivedeviceatthereceivingend,andthedemodulationistheinformationthatthetransmittingendwantstotransmit.AsoneoftheInternetofThingstechnology,visiblelightcommunicationtechnologyistoprovidelightingequipmentwith"wirelessrouters","communicationbasestations","networkaccesspoints"andeven"wirelessrouters","communicationbasestations","networkaccesspoints"andeven"underthepremiseofnotaffectingnormallighting."ThefunctionofGPSsatellites.
Mapa mraků
Thesatelliteobservationinstrumentsensesthereflectionofthegroundandcloudsonthesuninthevisiblelightband,anddisplaysitasaplaneimage,whichisvisiblelightcloudmapb>.Thedegreeofblackandwhiteoftheimagerepresentsthealbedoofthegroundandclouds,whitemeanshighalbedo,andblackmeanslowalbedo.Generallyspeaking,thethickerthecloud,thebrighteritsbrightness.Ifthelightingconditionsofthesunarethesame,thewaterdropletcloudisbrighterthantheicecrystalcloudforthesamethickcloud.Forexample,largeandthickclouds,especiallycumulonimbusclouds,aredensewhite;medium-thickclouds(cirrostratus,altostratus,fog,stratus,cumulus,etc.)arewhite;thinandsmallcloudareasonthecontinent(Suchascumuluscloudsonasunnyday)areoff-white,etc.
Viditelné světlo
Mezi běžné žárovky s viditelným světlem patří žárovky, halogenové žárovky, zářivky, energeticky úsporné žárovky, LED žárovky, vysokotlaké sodíkové žárovky, metalhalogenidové žárovky, bezelektrodové žárovky, neonové žárovky atd.
Thefollowingintroducestheworkingprinciplesofseveralcommonvisiblelightlampstoillustratethevariousfrequenciesofvisiblelightradiationthatthistypeoflampsmayproduceduringdailyuse:
1.Incandescentlamps:Itsstructureistoputthefilament(singlespiralfilamentordoublespiralfilament)intotheglassshell,andaddalampcap.Thefilamentisspiralinordertoreducetheevaporationoftungsteninthefilamentandprolongitsservicelife.Generally,itisfilledintheglassshell.Theargon-nitrogenmixtureisalsousedtoreducetheevaporationoftungsteninthefilament.Whenthelampisconnectedtothecircuit,thecurrentflowsthroughthefilament,andthecurrentproducesathermaleffect,causingtheincandescentbulbtoemitcontinuousvisiblelightandinfrared.Thisphenomenoncanbenoticedwhenthefilamenttemperaturerisesto700K.ThefrequencyofthethermalradiationisfromclosetoInfrared(380THz,780nm)graduallyrisestoaboutultraviolet(750THz,400nm).Theincandescentlampisalowcolortemperaturelightsource,thecolortemperatureisgenerally2400~2900K,thecolorrenderingisbetter,thecolorrenderingindexis99~100.However,duetothehightemperatureofthefilamentduringoperation,mostoftheenergyisconsumedintheformofinfraredradiation,sotheservicelifeisshort,generallynotexceeding1000h.Amongallelectriclightingproducts,incandescentlampshavethelowestefficiency.Onlyabout2%oftheenergycanbeconvertedintolightenergy.Althoughthelightefficiencyoftheincandescentlampislow,thelightcolorandlightcollectionperformanceareverygood,anditistheelectriclightsourcewiththelargestoutputandthemostwidelyused.
2.Halogenlamp:Basedontheincandescentlamp,asmallamountofhalogenelementisaddedtothefillinggastoformanefficientsmalllightsource.Ordinaryglassshellsarealsochangedtoquartzglass,hardhighsilicaglassoraluminateglasstoovercomehightemperatures.Halogenlampshavethecharacteristicsofhighluminousefficiencyandlonglife,andthereisa"tungstenhalogencycle"inthehalogenlamp,thatis,acyclicchemicalreaction.Halogenlampsandincandescentlampsarebothheatradiationlightsourcesandradiatealotofheat.However,theintensityoflightemittedbyhalogenlampsismuchhigherthanthatofincandescentlamps,andtheenergyconsumptionisreducedbyabout1/3.Thelightemittedbythehalogenlampcontainsultravioletcomponents,whicharedividedintothreewavelengthbands:UVA,UVB,andUVC,andUVBandUVChaveableachingeffectonthesubject.WhetherthehalogenlampwillproduceUVBharmfultothehumanbody,UVCdependsontheglassshellofthehalogenlamp.
3.Fluorescentlamp:adischargelampwithlow-pressuremercuryvaporatthecathode.Theultravioletlightreleasedbythedischargeisconvertedintovisiblelightbythereflectionofthephosphor.Thedouble-spiralortriple-spiraltungstenfilamentisusedonthesurfaceofthefilament.Coatedwithelectronemissionmaterialstoformtheemitter.Theglasstubeisfilledwithamixtureofargon,krypton,andneon,andamalgam,andtheinnerwalloftheglasstubeiscoatedwiththreeprimarycolorphosphors.Itsworkingprinciple:theballastgeneratesapulsevoltagetopreheatthefilament,andtheelectronemissionmaterialonthecathodeisactivatedtogenerateelectrons.Theelectronscollidewiththemercuryatomsinthetubetogenerate253.7nmand185nmultravioletrays.Themainpeakis253.7nm,accountingforabout70%to80%ofthetotalradiantenergy;thesub-peakvalueis185nm,accountingforabout10%ofthetotalradiantenergy.Ultravioletrayspassthroughtheinnerwalloftheglasstubecoatedwithphosphortorefractvisiblelight.Becauseoftheuseofthreeprimarycolorphosphorsandultravioletlightcomponents,thefluorescentlampspectrumhasmultiplesmallspikes,andthereismercuryvaporwithapressureofabout0.8Pa,whichisdischargedundertheactionofanelectricfield,andthevalenceelectronsofmercuryatomsareremovedfromtheoriginalstate.Excitedbecomesanexcitedstate.Atthesametime,itspontaneouslyreturnstothegroundstateinanexcitedstate,convertingvalenceelectronsintoelectromagneticradiationenergy,andradiating353.7nmultravioletrays,andthereareabout10%85nmhigh-frequencyultravioletrays.Thephosphorontheinnerwalloftheglasstubeabsorbs353.7nmultravioletlightandconvertsitintovisiblelight.Sincemostoftheelectricenergyconsumedbyfluorescentlampsisusedtogenerateultravioletrays,theluminousefficiencyoffluorescentlampsismuchhigherthanthatofincandescentlampsandtungstenhalogenlamps,andisamoreenergy-savinglightingsource.Whenthefluorescentlampisworking,thetemperatureofthefilamentisabout1160K,whichismuchlowerthantheworkingtemperatureoftheincandescentlamp,whichis2400~2900K,soitsservicelifeisgreatlyextended,reachingmorethan5000h.Anotherfeatureoffluorescentlampsisthattheyhavegoodcolorrendering,haveideallightingeffectsforcolorfulobjectsandenvironments,andhavelowlightdecay.Therefore,theyarewidelyused.
4.LEDlamp:isasolid-statesemiconductorcomponentthatcanconvertelectricalenergyintovisiblelight,thatis,light-emittingdiodes,whichdirectlyconvertelectricalenergyintolightenergy.ThecorecomponentoftheLEDisasemiconductorchip.Oneendofthechipisattachedtothebracket,oneendisthenegativepole,andtheotherendisthepositivepoleconnectedtothepowersupply.Theentirechipisencapsulatedbyepoxyresin.AsingleLEDlampbeadonlyworksatalowvoltageofabout3Vandalowcurrentofaboutafewmilliamps.Drivecircuit),maketheintegratedmultipleLEDlampbeadsworkunderthemainspower,andtheninstallthelampholder.Theself-ballastedLEDlampreferstoanLEDlampwithalampcapthatcanintegratestableignitioncomponentsintoone,andcaneasilyreplacetraditionalincandescentlamps.CommonlyusedwhiteLEDlightingisafluorescentlightsourceexcitedbyblueLEDs.Exceptforapartoftheheatdissipatedtoelectroniccomponents,mostofthewhitelightenergyofLEDlightingcanbeconvertedintovisiblelight,anditsluminousefficiencycanreach50~200lm/W.Itscharacteristicsaresimplestructure,lowcost,longservicelife,highluminousefficiency,andresistancetobreakage.