CLP Researching 中国光学期刊网 光电汇 爱光学
Chinese Optics Letters, 2018, 16 (2): 020008, Published Online: Jul. 16, 2018  

Coexistence of bound soliton and harmonic mode-locking soliton in an ultrafast fiber laser based on MoS2-deposited microfiber photonic device

Get PDF
Full Text
图表
Metrics
More
Meng Liu 1,2Aiping Luo 1,2Wencheng Xu 1,2Zhichao Luo 1,2,*
Author Affiliations
1 Guangdong Provincial Key Laboratory of Nanophotonic Functional Materials and Devices & Guangzhou Key Laboratory for Special Fiber Photonic Devices and Applications, South China Normal University, Guangzhou 510006, China
2 Guangdong Provincial Engineering Technology Research Center for Microstructured Functional Fibers and Devices, South China Normal University, Guangzhou 510006, China
Copy Citation Text

Meng Liu, Aiping Luo, Wencheng Xu, Zhichao Luo. Coexistence of bound soliton and harmonic mode-locking soliton in an ultrafast fiber laser based on MoS2-deposited microfiber photonic device[J]. Chinese Optics Letters, 2018, 16(2): 020008.

References

[1] NovoselovK. S.JiangD.SchedinF.BoothT. J.KhotkevichV. V.MorozovS. V.GeimA. K., PNAS102, 10451 (2005).

[2] EdaG.MaierS. A., ACS Nano7, 5660 (2013).ANCAC31936-0851

[3] ButlerS. Z.HollenS. M.CaoL.CuiY.GuptaJ. A.GutiérrezH. R.HeinzT. F.HongS. S.HuangJ.IsmachA. F.Johnston-HalperinE.KunoM.PlashnitsaV. V.RobinsonR. D.RuoffR. S.SalahuddinS.ShanJ.ShiL.SpencerM. G.TerronesM.WindlW.GoldbergerJ. E., ACS Nano7, 2898 (2013).ANCAC31936-0851

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

[5] BonaccorsoF.SunZ.HasanT.FerrariA. C., Nat. Photon.4, 611 (2010).NPAHBY1749-4885

[6] SunZ.HasanT.TorrisiF.PopaD.PriviteraG.WangF.BonaccorsoF.BaskoD. M.FerrariA. C., ACS Nano4, 803 (2010).ANCAC31936-0851

[7] DuJ.WangQ.JiangG.XuC.ZhaoC.XiangY.ChenY.WenS.ZhangH., Sci. Rep.4, 6346 (2014).SRCEC32045-2322

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

[9] MaoD.JiangB.GanX.MaC.ChenY.ZhaoC.ZhangH.ZhengJ.ZhaoJ., Photon. Res.3, A43 (2015).

[10] ChenY.JiangG.ChenS.GuoZ.YuX.ZhaoC.ZhangH.BaoQ.WenS.TangD.FanD., Opt. Express23, 12823 (2015).OPEXFF1094-4087

[11] LuS.GeY.SunZ.HuangZ.CaoR.ZhaoC.WenS.FanD.LiJ.ZhangH., Photon. Res.4, 286 (2016).

[12] JiangX. T.LiuS. X.LiangW. Y.LuoS. J.HeZ. L.GeY. Q.WangH. D.CaoR.ZhangF.WenQ.LiJ. Q.BaoQ. L.FanD. Y.ZhangH., Laser Photon. Rev.1700229 (2017).

[13] LuL.LiangZ. M.WuL. M.ChenY. X.SongY. F.DhanabalanS. C.PonrajJ. S.DongB. Q.XiangY. J.XingF.FanD. Y.ZhangH., Laser Photon. Rev.1700221 (2017).

[14] ColemanJ. N.LotyaM.O’NeillA.BerginS. D.KingP. J.KhanU.YoungK.GaucherA.DeS.SmithR. J.ShvetsI. V.AroraS. K.StantonG.KimH. Y.LeeK.KimG. T.DuesbergG. S.HallamT.BolandJ. J.WangJ. J.DoneganJ. F.GrunlanJ. C.MoriartyG.ShmeliovA.NichollsR. J.PerkinsJ. M.GrievesonE. M.TheuwissenK.McCombD. W.NellistP. D.NicolosiV., Science331, 568 (2011).SCIEAS0036-8075

[15] WangQ. H.Kalantar-ZadehK.KisA.ColemanJ. N.StranoM. S., Nat. Nanotechnol.7, 699 (2012).NNAABX1748-3387

[16] ChhowallaM.ShinH. S.EdaG.LiL.-J.LohK. P.ZhangH., Nat. Chem.5, 263 (2013).NCAHBB1755-4330

[17] MakK. F.LeeC.HoneJ.ShanJ.HeinzT. F., Phys. Rev. Lett.105, 136805 (2010).PRLTAO0031-9007

[18] ZhengJ.ZhangH.DongS.LiuY.NaiC. T.ShinH. S.JeongH. Y.LiuB.LohK. P., Nat. Commun.5, 2995 (2014).NCAOBW2041-1723

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

[20] ZhangH.LuS. B.ZhengJ.DuJ.WenS. C.TangD. Y.LohK. P., Opt. Express22, 249 (2014).OPEXFF1094-4087

[21] LiuH.LuoA. P.WangF. Z.TangR.LiuM.LuoZ. C.XuW. C.ZhaoC. J.ZhangH., Opt. Lett.39, 4591 (2014).

[22] XiaH.LiH.LanC.LiC.ZhangX.ZhangS.LiuY., Opt. Express22, 17341 (2014).

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

[24] LiuM.ZhengX. W.QiY. L.LiuH.LuoA. P.LuoZ. C.XuW. C.ZhaoC. J.ZhangH., Opt. Express22, 22841 (2014).OPEXFF1094-4087

[25] HuangY.LuoZ. Q.LiY. Y.ZhongM.XuB.CheK. J.XuH. Y.CaiZ. P.PengJ.WengJ., Opt. Express22, 25258 (2014).OPEXFF1094-4087

[26] KhazaeizhadR.KassaniS. H.JeongH.YeomD.-I.OhK., Opt. Express22, 23732 (2014).OPEXFF1094-4087

[27] WoodwardR. I.KelleherE. J. R.HoweR. C. T.HuG.TorrisiF.HasanT.PopovS. V.TaylorJ. R., Opt. Express22, 31113 (2014).OPEXFF1094-4087

[28] ZhangM.HoweR. C. T.WoodwardR. I.KelleherE. J. R.TorrisiF.HuG. H.PopovS. V.TaylorJ. R.HasanT., Nano Res.8, 1522 (2015).1998-0124

[29] WangY.MaoD.GanX.HanL.MaC.XiT.ZhangY.ShangW.HuaS.ZhaoJ., Opt. Express23, 205 (2015).OPEXFF1094-4087

[30] TianZ.WuK.KongL.YangN.WangY.ChenR.HuW.XuJ.TangY., Laser Phys. Lett.12, 065104 (2015).1612-2011

[31] WuK.ZhangX.WangJ.ChenJ., Opt. Lett.40, 1374 (2015).OPLEDP0146-9592

[32] WoodwardR. I.HoweR. C. T.HuG.TorrisiF.ZhangM.HasanT.KelleherE. J. R., ACS Appl. Mater. Interfaces6, 314 (2014).AAMICK1944-8244

[33] WangR.ChienH. C.KumarJ.KumarN.ChiuH. Y.ZhaoH., ACS Appl. Mater. Interfaces6, 314 (2014).

[34] Soto-CrespoJ. M.GreluP., Lect. Notes Phys.661, 207 (2005).LNPHA40075-8450

[35] HabouchaA.LeblondH.SalhiM.KomarovA.SanchezF., Phys. Rev. A78, 043806 (2008).

[36] AmraniF.HabouchaA.SalhiM.LeblondH.KomarovA.GreluP.SanchezF., Opt. Lett.34, 2120 (2009).OPLEDP0146-9592

[37] SobonG.SotorJ.AbramskiK. M., Appl. Phys. Lett.100, 161109 (2012).APPLAB0003-6951

[38] YanP.LinR.RuanS.LiuA.ChenH., Opt. Express23, 154 (2015).OPEXFF1094-4087

[39] TangD. Y.ManW. S.TamH. Y.DrummondP. D., Phys. Rev. A64, 033814 (2001).

[40] GreluP.BelhacheF.GuttyF.Soto-CrespoJ. M., Opt. Lett.27, 966 (2002).OPLEDP0146-9592

[41] ChouliS.GreluP., Opt. Express17, 11776 (2009).OPEXFF1094-4087

[42] ChouliS.GreluP., Phys. Rev. A81, 063829 (2010).

[43] HorowitzM.BaradY.SilberbergY., Opt. Lett.22, 799 (1997).OPLEDP0146-9592

[44] ZhaoL. M.TangD. Y.WuJ.FuX. Q.WenS. C., Opt. Express15, 2145 (2007).OPEXFF1094-4087

[45] HuangY. Q.HuZ. A.CuiH.LuoZ. C.LuoA. P.XuW. C., Opt. Lett.41, 4056 (2016).OPLEDP0146-9592

[46] WangY. Z.LiJ. F.ZhangE. T.MoK. D.WangY. Y.LiuF.ZhouX. J.LiuY., Opt. Lett.38, 5212 (2013).OPLEDP0146-9592

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

[48] LuoA. P.LiuM.WangX. D.NingQ. Y.XuW. C.LuoZ. C., Photon. Res.3, A69 (2015).

[49] NelsonL. E.JonesD. J.TamuraK.HausH. A.IppenE. P., Appl. Phys. B65, 277 (1997).

[50] ZhangH.TangD. Y.WuX.ZhaoL. M., Opt. Express17, 12692 (2009).OPEXFF1094-4087

[51] ZhangH.VirallyS.BaoQ.PingL. K.MassarS.GodboutN.KockaertP., Opt. Lett.37, 1856 (2012).OPLEDP0146-9592

[52] LuS.ZhaoC.ZouY.ChenS.ChenY.LiY.ZhangH.WenS.TangD., Opt. Express21, 2072 (2013).OPEXFF1094-4087

[53] LiuW. J.PangL.HanH.TianW.ChenH.LeiM.YanP. G.WeiZ., Sci. Rep.6, 19997 (2016).SRCEC32045-2322

Meng Liu, Aiping Luo, Wencheng Xu, Zhichao Luo. Coexistence of bound soliton and harmonic mode-locking soliton in an ultrafast fiber laser based on MoS2-deposited microfiber photonic device[J]. Chinese Optics Letters, 2018, 16(2): 020008.

Figures gallery of this article
论文摘要 Full Text  图 & 表 补充材料 基本信息 知识挖掘 Metrics PDF全文参考文献 & 引文
引用该论文: TXT   |   EndNote

被引通知
PDF全文

相关论文

加载中...

相关资讯

加载中...

关于本站 Cookie 的使用提示

中国光学期刊网使用基于 cookie 的技术来更好地为您提供各项服务,点击此处了解我们的隐私策略。 如您需继续使用本网站,请您授权我们使用本地 cookie 来保存部分信息。
全站搜索
您最值得信赖的光电行业旗舰网络服务平台!
快速查询 高级查询
最近搜索:
大家在搜: 人工智能     图像处理     光子 
热门搜索: 机器视觉     光通信     光纤传感器