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Fiber-OpticCommunicationsTechnologyLecture3DepartmentofOpticalEngineering,ZJUTopicsLightguidinginfiberRectangularwaveguide:ananalogyCircularwaveguideDepartmentofOpticalEngineeringDepartmentofOpticalEngineeringLightPropagationinWaveguidesMaxwell’sequationsRectangularwaveguideDeterminedbyboundaryconditionApplytoz-componentFirstfindEzandHz,andyouhavealltherestDepartmentofOpticalEngineeringZJUNoTEM:Ez=Hz=0thenEx=Ey=Hx=Hy=0TE:Ez=0,E-fieldlinesaxisofwaveguideTM:Hz=0,B-fieldlinesaxisofwaveguideTEandTMmodesTE:TM:DepartmentofOpticalEngineeringh2
h2=TEandTMFieldForTMmodes,l=0andm=0arenotpossible,TM11isthelowestTMmode.DepartmentofOpticalEngineeringCutofffrequencyandwavelength=+jh2=2+k2,k=/vIf>0,waveguideattenuationoccurs,notsupportpropagationCutofffrequencyCutoffoccursEvanescent:nopropagationPropagation:allowtraveling
DepartmentofOpticalEngineeringCutofffrequencyandwavelengthCutofffrequencyPhaseconstantWith’=√()Threewavelengths:Unboundedwavelength=v/f:freespace,noboundaryGuidedwavelengthg=/[1-(f/fc)2]1/2:Allowtotravel!Cutoffwavelengthc=v/fc
:attenuation/evanescent
ModesinslabwaveguideDepartmentofOpticalEngineeringModalTheoryofStepIndexfiberGeneralexpressionofEM-waveinthecircularfibercanbewrittenas:Eachofthecharacteristicsolutionsiscalledmthmodeoftheopticalfiber.ItisoftensufficienttogivetheE-fieldofthemode.DepartmentofOpticalEngineeringModepropagationconstantThemodalfielddistribution,,andthemodepropagationconstant,mareobtainedfromsolvingtheMaxwell’sequationssubjecttotheboundaryconditionsgivenbythecrosssectionaldimensionsandthedielectricconstantsofthefiber.MostimportantcharacteristicsoftheEMtransmissionalongthefiberaredeterminedbythemodepropagationconstant,m(),whichdependsonthemode&ingeneralvarieswithfrequencyorwavelength.Thisquantityisalwaysbetweentheplanepropagationconstant(wavenumber)ofthecore&thecladdingmedia.DepartmentofOpticalEngineeringAteachfrequencyorwavelength,thereexistsonlyafinitenumberofguidedorpropagatingmodesthatcancarrylightenergyoveralongdistancealongthefiber.Eachofthesemodescanpropagateinthefiberonlyifthefrequencyisabovethecut-offfrequency,cutoff,(orthesourcewavelengthissmallerthanthecut-offwavelength)obtainedfromcut-offconditionthatis:Tominimizethesignaldistortion,thefiberisoftenoperatedinasinglemoderegime.Inthisregimeonlythelowestordermode(fundamentalmode)canpropagateinthefiberandallhigherordermodesareundercut-offcondition(non-propagating).DepartmentofOpticalEngineeringDepartmentofOpticalEngineeringAttenuationandphaseshiftintotalinternalreflectionTotalinternalreflectionisnottotal:evanescentwave:Attenuatione-y,FresnelformulasReflectancesTransmittances
exampleDepartmentofOpticalEngineeringMoreaboutmodesTruemodesNaturalmodesTE,TMLinear-polarizedmodesLPmodesWhymodes,notfield?ThreetypesofmodesGuided:
internallyreflectedREPETIVELY!:2krequirementRadiation:notinternallyreflected+no2krequirement(continuum)LeakynotrealmodesMoreaboutmodesDepartmentofOpticalEngineeringModepropagationasafunctionoffrequencyModepropagationconstant,lm(),isthemostimportanttransmissioncharacteristicofanopticalfiber,becausethefielddistributioncanbeeasilywrittenasafunctionof.Inordertofindamodepropagationconstantandcut-offfrequenciesofvariousmodesoftheopticalfiber,firstwehavetocalculatethenormalizedfrequency,V,definedby:DepartmentofOpticalEngineeringa:radiusofthecore,
istheopticalfreespacewavelength,aretherefractiveindicesofthecore&cladding.Plotsofthepropagationconstantasafunctionofnormalizedfrequencyforafewofthelowest-ordermodesDepartmentofOpticalEngineeringDepartmentofOpticalEngineeringPhasevelocityv.s.Groupvelocity
c/n2c/n1minmaxGuidedmodesNomodesLeaky&radiationDepartmentofOpticalEngineeringGroupvelocityandpowertransportGroupandphasevelocityforE0cos(t-z)Phasev=/=c/n;puresinewave,notrealGroupvg=/,signalandpowertravelingvPowertransportanddistributionMultimodefiberV=40:Pclad/Ptotal=2%SinglemodefiberV=2.4:Pclad/Ptotal=40%DepartmentofOpticalEngineeringPowerconfinement&cutoffconditionLimitingthenumberofmodesMethodsAsolution:weakboundingCutoffwavelengthDepartmentofOpticalEngineeringDispersioninmultimodefibers:generalTwotypesofdispersion:intermodalandintramodal
TotaldispersionPulsewidth:
Fullwidthathalfthemaximum(FWHM)(fig.4.19)Opticalbandwidth:
Half-power(intensity)0.5PowerfrequencyrangeElectricalbandwidth:
0.707Powerfrequencyrange
DepartmentofOpticalEngineeringDispersioninmultimodefibers:intermodalIntermodaldispersion:1storderapproximation:
80ns/km(v.s.30ns/kmtruevalue)Problematicassumptions:AllmodesexcitedEachmodecarriesequalpowerModesdoesnotinteractwithoneanotherAllmodestravelatthesamevelocitynisindependentonDepartmentofOpticalEngineeringDispersioninmultimodefibers:intramodal
(chromatic,material)Sellmeierequations
Sellmeierequationsareessentiallyempiricalfitstotheactualrefractiveindexofamaterial,usingtheresultfor'forLorentzoscillatorsasbasisfunctionsDepartmentofOpticalEngineeringDepartmentofOpticalEngineeringSellmeierEquationforFusedSilicawithdopingModel:Three-polewithpolesatapproximately9.9m,116nmand68nmDepartmentofOpticalEngineeringDepartmentofOpticalEngineeringDispersioninmultimodefibers:intramodal
(chromatic,material)Propagationdelayperkilometer:g=1/vg
Materialdispersioncoefficient: Dmat()=g/examplePulsedelaycausedbymaterialdispersion tm=Dmat(),
wheretofindS0and0? fig3.20onp.78, table4.1onp.130
DepartmentofOpticalEngineeringBandwidthofmultimodefibersOverallbandwidth:
BW=1/(4ttotal)Intermodalbandwidth(GIfiber):(consideringn()forvg)Material(intramodal)bandwidth:
BWmat=1/[4D()L]
(aroughestimation!)ExampleExampleDepartmentofOpticalEngineeringDm()CalculationDepartmentofOpticalEngineeringIntermodalbandwidthforGIDepartmentofOpticalEngineeringDepartm
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