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Chinese Optics Letters, 2018, 16 (2): 020012, Published Online: Jul. 16, 2018  

Graphene/MoS2 heterostructure: a robust mid-infrared optical modulator for Er3+-doped ZBLAN fiber laser

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Pinghua Tang 1Yue Tao 1Yuliang Mao 1Man Wu 2Zongyu Huang 1Shengnan Liang 1Xinhang Chen 1Xiang Qi 1,*Bin Huang 2Jun Liu 3Chujun Zhao 2,**
Author Affiliations
1 Hunan Key Laboratory for Micro-Nano Energy Materials and Devices, School of Physics and Optoelectronics, Xiangtan University, Xiangtan 411105, China
2 Key Laboratory for Micro-/Nano-Optoelectronic Devices of Ministry of Education, School of Physics and Electronics, Hunan University, Changsha 410082, China
3 SZU-NUS Collaborative Innovation Center for Optoelectronic Science & Technology, Key Laboratory of Optoelectronic Devices and Systems of Ministry of Education and Guangdong Province, College of Optoelectronic Engineering, Shenzhen University, Shenzhen 518060, China
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Pinghua Tang, Yue Tao, Yuliang Mao, Man Wu, Zongyu Huang, Shengnan Liang, Xinhang Chen, Xiang Qi, Bin Huang, Jun Liu, Chujun Zhao. Graphene/MoS2 heterostructure: a robust mid-infrared optical modulator for Er3+-doped ZBLAN fiber laser[J]. Chinese Optics Letters, 2018, 16(2): 020012.

References

[1] HammJ. M.HessO., Science340, 1298 (2013).SCIEAS0036-8075

[2] SunZ. P.MartinezA.WangF., Nat. Photon.10, 227 (2016).NPAHBY1749-4885

[3] BaoQ. L.ZhangH.WangY.NiZ. H.ShenZ. X.LohK. P.TangD. Y., Adv. Funct. Mater.19, 3077 (2009).AFMDC61616-301X

[4] SunZ. P.HasanT.TorrisiF.PopaD.PriviteraG.WangF. Q.BonaccorsoF.FerrariD. M.FerrariA. C., ACS Nano4, 803 (2010).ANCAC31936-0851

[5] WeiC.ZhuX.WangF.XuY.BalakrishnanK.SongF.NorwoodR. A.PeyghambarianN., Opt. Lett.38, 3233 (2013).OPLEDP0146-9592

[6] YinJ. B.WangH.PengH.TanZ. J.LiaoL.LinL.SunX.KohA. L.ChenY. L.PengH. L.LiuZ. F., Nat. Commun.7, 10699 (2016).NCAOBW2041-1723

[7] KoppensF. H. L.ChangD. E.García de AbajoF. J., Nano Lett.11, 3370 (2011).NALEFD1530-6984

[8] MarcoF.AlexanderU.AndreasP.GovindaL.KarlU.HermannnD.PavelK.AaronM. A.WernerS.GottfriedS.ThomasM., Nano Lett.12, 2773 (2012).NALEFD1530-6984

[9] ZhaoC. J.ZhangH.QiX.ChenY.WangZ. T.WenS. C.TangD. Y., Appl. Phys. Lett.101, 201106 (2012).APPLAB0003-6951

[10] TangP. H.ZhangX. Q.ZhaoC. J.WangY.ZhangH.ShenD. Y.WenS. C.TangD. Y.FanD. Y., IEEE Photon. J.5, 1500707 (2013).

[11] LuoZ. C.LiuM.LiuH.ZhengX. W.LuoA. P.ZhaoC. J.ZhangH.WenS. C.XuW. C., Opt. Lett.38, 5212 (2013).OPLEDP0146-9592

[12] LeeJ. S.JungM. W.KooJ.ChiC.LeeJ. H., IEEE J. Sel. Top. Quantum Electron.21, 264 (2015).IJSQEN1077-260X

[13] ChenY.JiangG. B.ChenS. Q.GuoZ. N.YuX. F.ZhaoC. J.ZhangH.BaoQ. L.WenS. C.TangD. Y.FanD. Y., Opt. Express23, 12823 (2015).OPEXFF1094-4087

[14] SotorJ.SobonG.MacherzynskiW.PaletkoP.AbramskiK. M., Appl. Phys. Lett.107, 051108 (2015).APPLAB0003-6951

[15] LouZ. C.LiuM.GuoZ. N.JiangX. F.LuoA. P.ZhaoC. J.YuX. F.XuW. C.ZhangH., Opt. Express23, 20030 (2015).OPEXFF1094-4087

[16] QinZ. P.XieG. Q.ZhaoC. J.WenS. C.YuanP.QianL. J., Opt. Lett.41, 56 (2016).OPLEDP0146-9592

[17] WangX.WangZ. F.WangY. G.LiL.YangG. W.LiJ. P., Chin. Opt. Lett.15, 011402 (2017).CJOEE31671-7694

[18] KangZ.XuY.ZhangL.JiaZ. X.LiuL.ZhaoD.FengY.QinG. S.QinW. P., Appl. Phys. Lett.103, 041105 (2013).APPLAB0003-6951

[19] HuangH. T.LiM.WangL.LiuX.ShenD. Y.TangD. Y., IEEE Photon. J.7, 4501210 (2015).

[20] ZhangH.LuS. B.ZhengJ.DuJ.WenS. C.TangD. Y.LohK. P., Opt. Express22, 7249 (2014).OPEXFF1094-4087

[21] WoodwardR. I.HoweR. C. T.HuG.TorrisiF.ZhangM.HasanT.KelleherJ. R., Photon. Res.3, A30 (2015).

[22] WeiC.LuoH. Y.ZhangH.LiC.XieJ. T.LiJ. F.LiuY., Laser Phys. Lett.13, 105108 (2016).1612-2011

[23] LuoZ. Q.LiY. Y.ZhongM.HuangY. Z.WanX. J.PengJ.WengJ., Photon. Res.3, A79 (2015).

[24] TiuZ. C.AhmadH.ZareiA.HarunS. W., Chin. Opt. Lett.14, 041901 (2016).CJOEE31671-7694

[25] JiangY. Q.MiaoL. L.JiangG. B.ChenY.QiX.JiangX. F.ZhangH.WenS. C., Sci. Rep.5, 16372 (2015).SRCEC32045-2322

[26] HuangZ. Y.HanW. J.LiuX. J.QiX.ZhongJ. X., Ceram. Int.40, 11971 (2014).

[27] BritnellL.RibeiroR. M.EckmannA.JalilR.BelleB. D.MishchenkoA.KimY. J.GorbachevR. V.GeorgiouT.MorozovS. V.GrigorenkoA. N.GeimA. K.CasiraghiC.Castro NetoA. H.NovoselovK. S., Science340, 1311 (2013).SCIEAS0036-8075

[28] DuJ.WangQ. K.JiangG. B.XuC. W.ZhaoC. J.XiangY. J.ChenY.WenS. C.ZhangH., Sci. Rep.4, 6346 (2014).SRCEC32045-2322

[29] LuoZ. Q.HuangY. Z.ZhongM.LiY. Y.WuJ. Y.XuB.XuH. Y.CaiZ. P.PengJ.WengJ., J. Lightwave Technol.32, 4679 (2014).JLTEDG0733-8724

[30] XiaH. D.LiH. P.LanC. Y.LiC.ZhangX. X.ZhangS. J.LiuY., Opt. Express22, 17341 (2014).OPEXFF1094-4087

[31] RenJ.WangS. X.ChengZ. C.YuH. H.ZhangH. J.ChenY. X.MeiL. M.WangP., Opt. Express23, 5607 (2015).OPEXFF1094-4087

[32] KongL. C.XieG. Q.YuanP.QianL. J.WangS. X.YuH. H.ZhangH. J., Photon. Res.3, A47 (2015).

[33] ZouX.LengY. X.LiY. Y.FengY. Y.ZhangP. X.HangY.WangJ., Chin. Opt. Lett.13, 081405 (2015).CJOEE31671-7694

[34] WangK. P.WangJ.FanJ. T.MustafaL.O’NeillA.FoxD.FengY. Y.ZhangX. Y.JiangB. X.ZhaoQ. Z.ZhangH. Z.ColemanJ. N.ZhangL.BlauW. J., ACS Nano7, 9260 (2013).ANCAC31936-0851

[35] ZhangW. J.ChuuC. P.HuangJ. K.ChenC. H.TsaiM. L.ChangY. H.LiangC. T.ChenY. Z.ChuehY. L.HeJ. H.ChouM. Y.LiL. J., Sci. Rep.4, 3826 (2014).SRCEC32045-2322

[36] ZhaoG.HouJ.WuY. Z.HeJ. L.HaoX. P., Adv. Opt. Mater.3, 937 (2015).2195-1071

Pinghua Tang, Yue Tao, Yuliang Mao, Man Wu, Zongyu Huang, Shengnan Liang, Xinhang Chen, Xiang Qi, Bin Huang, Jun Liu, Chujun Zhao. Graphene/MoS2 heterostructure: a robust mid-infrared optical modulator for Er3+-doped ZBLAN fiber laser[J]. Chinese Optics Letters, 2018, 16(2): 020012.

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