简介:TheelectromagneticpropagationthroughaninhomogeneousmagnetizedplasmaslabisstudiedusingtheZ-transformformulationoftheFinite-DifferenceTime-Domain(FDTD)method.Thedirectionofelectromagneticpropagationisparalleltothebiasingmagneticfiled.TovalidatetheZ-transformalgorithm,thereflectionandtransmissioncoefficientsfortheright-handcircularlypolarizedwaveofthehomogeneousmagnetizedplasmaslabarecomputedbymeansofdiscreteFouriertransform.ThecomparisonbetweenthereflectionandtransmissioncoefficientsofthehomogeneousplasmaslabandanalyticalvaluesindicatesthatZ-transformalgorithmisveryaccurate.Whentheplasmafrequencyvariesaccordingtothesquarerootandparabolicrelations,thereflectionandtransmissioncoefficientsoftheinhomogeneousmagnetizedplasmaslabarecomputed.
简介:Anewmultiple-tapsandflatmicrowavephotonicfilter,whichiscomposedoffiberBragggrating,M-Zmodulatoranderbium-dopedfiber,isputforward.Theflatband-passorflatband-stopresponsecanberealizedbyadjustingthecoupler'sfactorandthereflectivityofthefiberBragggratingorthegainoftheerbium-dopedfiber.Thefreespectralrangeofthefiltercanbetunedbycontrollingthelengthoftheerbium-dopedfiber.Thepotentialandfeasibilityoftheproposedfilteringstructureshavebeendemonstratedbysimulation.
简介:OneoftheproblemsinusinggratingsensorsishowtomeasureasmallBraggwavelengthshiftaccurately.Nowadaysdemodulationtechniquesaremainlybasedontheedgefilter,tunablefilter,orinterferometricscanningmethods.Interferometricdemodulationiswidelyacceptedasthetechnologywhichcanprovidethehighsensitivity.Aninterrogationsystemusingtheinterferometricscanningmethodispresented,inwhichanunbalancedfiberM-Zinterferometerisusedasthewavelengthscannerfortemperaturemeasurement.AnovelfiberBragggratingsensorsystembasedonM-Zinterferometricdemodulationtechniqueispresentedinthispaper.Thetemperaturesensitivitymeasuredintheexperimentisalmostconsistentwiththatobtainedfromthetheoreticcalculation.
简介:Thispapergivesthestrictsolutionofopticalfieldequationintheopticalwaveguideswithparabolic.Itshowsthatthephotonsinthenon-uniformopti-calwaveguidepropagatealongz-axisinspiralform,justlikeachargedparticlesmovinginthemagneticfield.Onlyinthestep-indexwaveguides,itcanthephotonspropagateinzizagform.
简介:<正>日本知名半导体制造商罗姆株式会社日前面向EV/HEV车(电动汽车/混合动力车)和工业设备的变频驱动,开发出符合SiC器件温度特性的可在高温条件下工作的SiC功率模块。该模块采用新开发的高耐热树脂,世界首家实现了压铸模类型、225℃高温下工作,并可与现在使用Si器件的模块同样实现小型和低成本封装,在SiC模块的普及上迈出了巨大的一步。这种模块是600V/100A三相变频,搭载了罗姆的6个SiC-SBD和6个SiC沟槽MOSFET,经验证工作温度可高达225℃。此外,该模块使用范围可达1200V级。因此,与传统的Si-IGBT模块相比,其损耗大大降低,不仅可实现小型化,而且与以往的母模类型SiC模