研究领域
1)InP基半导体光电子单片集成芯片的研制,如多波长DFB激光器阵列、可调谐激光器阵列、用于THz信号产生的高速光混频器阵列等;2)新型光电子器件研究,如晶体管激光器、晶体管光探测器、新型ROF系统光源等;3)高性能III-V族半导体光电子材料的MOCVD生长;4)半导体光电子器件及材料的数值模拟。
科研项目
(1)脊波导InP基光敏晶体管的研究(子课题),主持,国家级,2011-01--2013-12
(2)10×10Gb/s并行光发射单片集成芯片设计与制备(子课题),主持,国家级,2011-01--2014-12
(3)高性能InP基晶体管激光器研究,主持,国家级,2013-01--2016-12
(4)1×4阵列式波长可调谐40G激光器(子课题),主持,国家级,2013-01--2016-12
(5)基于PD的THz天线阵列研究,主持,国家级,2015-01--2018-12
(6)4×25GHz高线性度直接调制激光器及探测器阵列集成研究,主持,国家级,2017-01--2021-12
(7)InP基光子集成发射芯片研究,主持,国家级,2014-01--2018-12
专利成果
(1)基于边入射光混频器的THz天线阵列,2012,第1作者,专利号:201210370216
(2)采用宽脉冲激光器光源扫描辐照制作黑硅材料的方法,2009,第1作者,专利号:200910078864
(3)NPN异质结双极型晶体管激光器,2008,第1作者,专利号:200810240353
(4)双极型晶体管与半导体激光器单片集成器件的制作方法,2010,第1作者,专利号:201010269026
(5)利用选择区域外延技术制作分布反馈激光器阵列的方法,2012,第1作者,专利号:201210319231
(6)单片集成钛薄膜热电阻可调谐DFB激光器的制作方法,2013,第2作者,专利号:201310019746
(7)电吸收调制器与自脉动激光器单片集成器件的制作方法,2009,第1作者,专利号:200910078863
(8)宽光谱自组织量子点材料的生长方法,2008,第1作者,专利号:200810240354.8
近期论文
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1.Xu,J.,Liang,S.*,Qiao,L.,Han,L.,Sun,S.,Zhu,H.,&Wang,W.LaserArraysWith25-GHzChannelSpacingFabricatedbyCombiningSAGandRECTechniques.IEEEPhotonicsTechnologyLetters,28(20),2249-2252(2016).
2.Qiao,L.,Liang,S.*,Zhu,H.,&Wang,W.DopingofActiveRegioninLongWavelengthInP-BasedTransistorLasers.IEEEPhotonicsJournal,8(3),1-8(2016).
3.Deng,Q.,Xu,J.,Guo,L.,Liang,S.*,Hou,L.,&Zhu,H.ADual-GratingInGaAsP/InPDFBLaserIntegratedWithanSOAforTHzGeneration.IEEEPhotonicsTechnologyLetters,28(21),2307-2310(2016).
4.SongLiang*,LijunQiao,HongliangZhu&WeiWang,Highcurrentgaintransistorlaser,ScientificReports6,27850(2016)
5.LiangshunHan,SongLiang*,JunjieXu,LijunQiao,HuitaoWang,LingjuanZhao,HongliangZhu,WeiWang,DBRLaserwithover20nmWavelengthTuningRange,IEEEPhotonicsTechnologyLetters,2016,28(9)943-946.
6.LijunQiao,SongLiang*,LiangshunHan,JunjieXu,HongliangZhu,WeiWang,Continuous-waveoperationupto20oCofdeep-ridgenpn-InGaAsP/InPmultiplequantumwelltransistorlaseremittingat1.5-μmwavelength,OpticsExpress,2015,23(9):11388-11393.
7.LiangshunHan,SongLiang*,HuitaoWang,JunjieXu,LijunQiao,HongliangZhu,WeiWang,FabricationofLow-CostMultiwavelengthLaserArraysforOLTsinWDM-PONsbyCombiningtheSAGandBIGTechniques,PhotonicsJournal,IEEE,2015,7(4):1-7.
8.LiangshunHan,SongLiang*,HongliangZhu,WeiWang,Fabricationofanelectro-absorptionmodulateddistributedfeedbacklaserbyquantumwellintermixingwithetchingion-implantationbufferlayer,ChineseOpticsLetters,2015,13(8):081301-1-081301-4.
9.LiangshunHan,SongLiang*,CanZhang,HongliangZhu,WeiWang,AHighExtinctionRatioPolarizationBeamSplitterwithMMICouplersonInPSubstrate,IEEEPhotonicsTechnologyLetters,2015,27:782-785.
10.LiangshunHan,SongLiang*,HongliangZhu,LijunQiao,JunjieXu,WeiWang,Two-modeDe/MultiplexerbasedonMultimodeInterferenceCouplerswithaTiltedJointasPhaseShifter,OpticsLetters,2015,40(4):518-521.
11.SongLiang*,LijunQiao,LiangshunHan,JunjieXu,HongliangZhu,WeiWang,TransistorLaserwithaCurrentConfinementApertureintheEmitterRidge,IEEEElectronicDeviceLetters,2015,36(10):1063-1065.
12.HuoWenjuan,LiangSong*,CanZhang,ShaoyangTan,LiangshunHan,HongyunXie,HongliangZhu,WeiWang,FabricationandcharacterizationofdeepridgeInGaAsP/InPlightemittingtransistors,Opticsexpress,2014,22:1806-1814.
13.LiangshunHan,SongLiang*,HuitaoWang,LijunQiao,JunjieXu,LingjuanZhao,HongliangZhu,WeiWang,Electroabsorption-modulatedwidelytunableDBRlasertransmitterforWDM-PONs,OpticsExpress,2014,22:30368-30376.
14.CanZhang,SongLiang*,HongliangZhu,LiangshunHan,WeiWang,MultichannelDFBLaserArraysFabricatedbyUpperSCHLayerSAGTechnique,IEEEJournalofQuantumElectronics8,2014,50:92-97.
15.CanZhang,BaojunWang,SongLiang,HongliangZhu,WeiWang,Mode-Hop-FreePhotonicCrystalLaserFabricatedbyHolographicExposureTechnology,OpticsLetters,2014,39(10):2892-2895.
16.CanZhang,SongLiang*,HongliangZhu,LiangshunHan,DanLu,LingjuanZhao,WeiWang,Thefabricationof10-channelDFBLaserArraybySAGtechnology,OpticsCommunications,2013,311:6-10.
17.CanZhang,SongLiang*,HongliangZhu,LiMa,BaojunWan,ChenJi,WeiWang,Multi-channelDFBlaserarraysfabricatedbySAGtechnology,OpticsCommunications,2013,300:230-235.
18.CanZhang,SongLiang*,LiMa,LiangshuHan,HongliangZhu,Multi-channelDFBlaserarrayfabricatedbySAGwithoptimizedepitaxyconditions,ChineseOpticsLetters,2013,11(4):041401.
19.CanZhang,SongLiang,HongliangZhu,WeiWang,Widelytunabledual-modedistributedfeedbacklaserfabricatedbyselectiveareagrowthtechnologyintegratedwithTiheaters,OpticsLetters,2013,38(16):3050-3053.
20.CanZhang,HongliangZhu,SongLiang,LiangshunHan,WeiWang,Monolithicallyintegrated4-channel-selectablelightsourcesfabricatedbytheSAGtechnology,IEEEPhotonicsJournal,2013,5(4):1400407.
21.CanZhang,SongLiang,HongliangZhu,WeiWang,TunableDFBlasersintegratedwithTithinfilmheatersfabricatedwithasimpleprocedure,Optics&LaserTechnology,2013,54(30):148-150.
22.ChanZhang,SongLiang*,HongliangZhu,BaojunWang,WeiWang,AmodifiedSAGtechniqueforthefabricationofDWDMDFBlaserarrayswithhighlyuniformwavelengthspacings,Opticsexpress,2012,20(28):29620-29625.
23.DuanhuaKong,HongliangZhu,SongLiang*,JifangQiu,LingjuanZhao,UltrashortPulseGenerationatQuasi-40-GHzbyUsingaTwo-SectionPassivelyMode-LockedInGaAsP-InPTensileStrainedQuantum-WellLaser,Chin.Phys.Lett.,2012,29(2):024201.
24.DuanhuaKong,HongLiangZhu,SongLiang,WenkeYu,CaiyunLou,LingjuanZhao,All-opticalclockrecoveryusingparallelridge-widthvariedDFBlasersintegratedwithY-branchwaveguidecoupler,OpticsCommunications,2012,285(3):311-314.
25.LiangSong*,KongDuanhua,Duanhua.Kong,HongliangZhu,LingjuanZhao,JiaoqingPan,WeiWang,InP-baseddeep-ridgeNPNtransistorlaser,OPTICSLETTERS,2011,36(16):3206-3208.
26.SongLiang*,HongliangZhu,DuanhuaKong,BinNiu,LingjuanZhao,WeiWang,Temperatureperformanceoftheedgeemittingtransistorlaser,AppliedPhysicsLetters,2011,99(1):013503.
27.SongLiang*,DuanhuaKong,HogliangZhu,WeiWang,Growthsimulationsofself-assemblednanowiresonsteppedsubstrates,IEEEJournalofSelectedTopicsinQuantumElectronics,2011,17:960-965.
28.SongLiang*,HongliangZhu,DuanhuaKong,WeiWang,Formationtrendsoforderedself-assemblednano-islandsonsteppedsubstrates,J.ofAppliedPhysics,2010,108(7):073512-1-073512-5.
29.DuanhuaKong,HongliangZhu,SongLiang,CaiyunLou,BaojunWang,LingjuanZhao,All-opticalclockrecoveryusingaridgewidthvariedtwo-sectionpartlygain-coupledDFBself-pulsationlaser,OpticsCommunications,2010,283(20):3970-3975.
30.Zhu,Hongliang,Xu,Xiaodong,Wang,Huan,Kong,Duanhua,Liang,Song,Zhao,Lingjuan,Wang,Wei,TheFabricationofEight-ChannelDFBLaserArrayUsingSampledGratings,IEEEPhotonicsTechnologyLetters,2010,22(5):353-355.
31.SongLiang*,HongliangZhu,XiaolingYe,WeiWang,Annealingbehaviorsoflong-wavelengthInAs/GaAsquantumdotswithdifferentgrowthproceduresbymetalorganicchemicalvapordeposition,JournalofCrystalGrowth,2009,311(8):2281-2284.
32.Kong,Duanhua,Zhu,Hongliang,Liang,Song*,Zhang,Hongguang,Sun,Yu,Wang,Hun,Zhang,Wei,Zhao,Lingjuan,Aridgewidthvariedtwo-sectionindex-coupledDFBself-pulsationlaserwithawidecontinuouslytunablefrequencyrange,JournalofPhysicsD:AppliedPhysics,2009,42(12):125105.
33.SongLiang*,HongliangZhu,XiaolingYe,JiaoqingPan,LingjuanZhao,WeiWang,Anomalouscoarseningofself-assembledInAsquantumdotsonvicinalGaAs(100)substrates,JournalofPhysicsD:AppliedPhysics,2009,42(5):055310.
34.SongLiang*,HongliangZhu,WeiWang,ShapestabilityofInAsself-assembledislandsonvicinalGaAs(001)substrates,ChemicalPhysicsLetters,2009,468(4-6):249-252.
35.SongLiang*,Hongliangzhu,WeiWang,Sizedistributionsofquantumislandsonsteppedsubstrates,J.ChemicalPhysics,2009,131:154704.
36.LiangSong*,ZhuHongliang,PanJiaoqing,ZhaoLingjuan,WangLufeng,ZhouFan,WangWei,PhotoluminescenceandlasingpropertiesofInAs/GaAsquantumdotsgrownbymetal-organicchemicalvapordeposition,ChinesePhysics,2008,17:1674-1677.
37.SongLiang*,HongliangZhu,WeiWang,Temperature-dependentbimodalsizeevolutionofInAsquantumdotsonvicinalGaAs(100)substrates,JournalofAppliedPhysics,2006,100(10).
38.SongLiang*,HongliangZhu,XiaolingYe,WeiWang,EffectofGaAS(100)2degreessurfacemisorientationontheformationandopticalpropertiesofMOCVDgrownInAsquantumdots,AppliedSurfaceScience,2006,252(23):8126-8130.
39.SongLiang*,HongliangZhu,JiaoqingPan,WeiWang,DependenceofbimodalsizedistributionontemperatureandopticalpropertiesofInAsquantumdotsgrownonvicinalGaAs(1-00)substratesbyusingMOCVD,ChinesePhysics,2006,15(5):1114-1119.
40.SongLiang*,HongliangZhu,JiaoqingPan,XiaolingYe,WeiWang,GrowthofInAsquantumdotsonvicinalGaAs(100)substratesbymetalorganicchemicalvapordepositionandtheiropticalproperties,JournalofCrystalGrowth,2006,289(2):477-484.
41.SongLiang*,HongliangZhu,JiaoqingPan,LingjuanZhao,WeiWang,EffectofannealingonopticalpropertiesofInAsquantumdotsgrownbyMOCVDonGaAs(100)vicinalsubstrates,ChinesePhysicsLetters,2005,22(10):2692-2695.
42.SongLiang*,HongliangZhu,JiaoqingPan,LianpingHou,WeiWang,ComparativestudyofInAsquantumdotsgrownondifferentGaAssubstratesbyMOCVD,JournalofCrystalGrowth,2005,282(3-4):297-304.