High-repetition-rate pulsed fiber laser based on virtually imaged phased array | Chinese Optics Letters -- 中国光学期刊网

Chinese Optics Letters, 2020, 18 (7): 071403, Published Online: Jun. 8, 2020

High-repetition-rate pulsed fiber laser based on virtually imaged phased array Download： 703次

Xuanjuan Chen ¹Yuxin Gao ²Jiamin Jiang ¹Meng Liu ^1,*Aiping Luo ¹Zhichao Luo ¹Wencheng Xu ^1,**

Author Affiliations

¹ Guangzhou Key Laboratory for Special Fiber Photonic Devices and Applications & Guangdong Provincial Key Laboratory of Nanophotonic Functional Materials and Devices, South China Normal University, Guangzhou 510006, China

² Department of Mechanical and Electrical Engineering, Shandong Polytechnic College, Jining 272067, China

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Xuanjuan Chen, Yuxin Gao, Jiamin Jiang, Meng Liu, Aiping Luo, Zhichao Luo, Wencheng Xu. High-repetition-rate pulsed fiber laser based on virtually imaged phased array[J]. Chinese Optics Letters, 2020, 18(7): 071403.

References

[1] KellerU., Nature424, 831 (2003).

[2] FermannM. E.HartlI., IEEE J. Sel. Top. Quantum Electron. 15, 191 (2009)IJSQEN1077-260X

[3] CotterD.ManningR. J.BlowK. J.EllisA. D.KellyA. E.NessetD.PhillipsI. D.PoustieA. J.RogersD. C., Science286, 1523 (1999).SCIEAS0036-8075

[4] ZhangZ. Y.OehlerA. E. H.ResanB.KurmulisS.ZhouK. J.WangQ.MangoldM.SuedmeyerT.KellerU.WeingartenK. J.HoggR. A., Sci. Rep.2, 477 (2012).SRCEC32045-2322

[5] MartinezA.YamashitaS., Opt. Express19, 6155 (2011).OPEXFF1094-4087

[6] MartinezA.YamashitaS., Appl. Phys. Lett.101, 041118 (2012).APPLAB0003-6951

[7] WangW.LinW.ChengH.ZhouY.QiaoT.LiuY.MaP.ZhouS.YangZ., Opt. Express27, 10438 (2019).OPEXFF1094-4087

[8] PanasenkoD.PolynkinP.PolynkinA.MoloneyJ. V.MansuripurM.PeyghambarianN., IEEE Photonic. Tech. Lett. 18, 853 (2006).IPTLEL1041-1135

[9] JiangK.FuS. N.ShumP.LinC., IEEE Photon. Tech. Lett. 22, 754 (2010).IPTLEL1041-1135

[10] SobonG.KrzempekK.KaczmarekP.AbramskiK. M.NikodemM., Opt. Commun.284, 4203 (2011).OPCOB80030-4018

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

[12] HuangQ. Q.WangT. X.ZouC. H.AlAraimiM.RozhinA.MouC. B., Chin. Opt. Lett.16, 020019 (2018).CJOEE31671-7694

[13] LiuM.LuoA. P.XuW. C.LuoZ. C., Chin. Opt. Lett.16, 020008 (2018).CJOEE31671-7694

[14] HuangQ.HuangZ.Al AraimiM.RozhinA.MouC., IEEE Photon. Tech. Lett. 32, 121 (2020).IPTLEL1041-1135

[15] Quiroga-TeixeiroM.ClausenC. B.SørensenM. P.ChristiansenP. L.AndreksonP. A., J. Opt. Soc. Am. B15, 1315 (1998).JOBPDE0740-3224

[16] ZhangS. M.LuF. Y.DongX. Y.ShumP.YangX. F.ZhouX. Q.GongY. D.LuC., Opt. Lett.30, 2852 (2005).OPLEDP0146-9592

[17] SchröderJ.CoenS.VanholsbeeckF.SylvestreT., Opt. Lett.31, 3489 (2006).OPLEDP0146-9592

[18] SchröderJ.VoT. D.EggletonB. J., Opt. Lett.34, 3902 (2009).OPLEDP0146-9592

[19] PecciantiM.PasquaziA.ParkY.LittleB. E.ChuS. T.MossD. J.MorandottiR., Nat. Commun.3, 765 (2012).NCAOBW2041-1723

[20] MaoD.LiuX.SunZ.LuH.HanD.WangG.WangF., Sci. Rep.3, 3223 (2013).SRCEC32045-2322

[21] JyuS. S.YangL. G.WongC. Y.YehC. H.ChowC. W.TsangH. K.LaiY., IEEE Photonics J.5, 1502107 (2013).

[22] QiY. L.LiuH.CuiH.HuangY. Q.NingQ. Y.LiuM.LuoZ. C.LuoA. P.XuW. C., Opt. Express23, 17720 (2015).OPEXFF1094-4087

[23] LiuM.TangR.LuoA. P.XuW. C.LuoZ. C., Photon. Res.6, C1 (2018).

[24] BaoH.CooperA.RowleyM.LauroL. D.GongoraJ. S. T.ChuS. T.LittleB. E.OppoG. L.MorandottiR.MossD. J.WetzelB.PecciantiM.PasquaziA., Nat. Photon.13, 384 (2019).NPAHBY1749-4885

[25] DingZ. X.HuangZ. N.ChenY.MouC. B.LuY. Q.XuF., Adv. Photon.2, 026002 (2020).AOPAC71943-8206

[26] ShirasakiM., Opt. Lett.21, 366 (1996).OPLEDP0146-9592

[27] ShirasakiM., IEEE Photon. Tech. Lett. 9, 1598 (1997).IPTLEL1041-1135

[28] XiaoS.WeinerA. M., IEEE Photon. Tech. Lett. 17, 372 (2005).IPTLEL1041-1135

[29] SupradeepaV. R.HuangC. B.LeairdD. E.WeinerA. M., Opt. Express16, 11878 (2008).OPEXFF1094-4087

[30] Nugent-GlandorfL.NeelyT.AdlerF.FleisherA. J.CosselK. C.BjorkB.DinneenT.DiddamsS. A., Opt. Lett.37, 3285 (2012).OPLEDP0146-9592

[31] ManW. S.TamH. Y.DemokanM. S.WaiP. K. A.TangD. Y., J. Opt. Soc. Am. B17, 28 (2000).

[32] LuoZ. C.LuoA. P.XuW. C.YinH. S.LiuJ. R.YeQ.FangZ. J., IEEE Photonics J.2, 571 (2010).

[33] ZhangH.TangD. Y.KnizeR. J.ZhaoL. M.BaoQ. L.LohK. P., Appl. Phys. Lett.96, 111112 (2010).APPLAB0003-6951

[34] PasquaziA.PecciantiM.LittleB. E.ChuS. T.MossD. J.MorandottiR., Opt. Express20, 27355 (2012).OPEXFF1094-4087

[35] NakazawaM.TamuraK.YoshidaE., Electron. Lett.32, 461 (1996).ELLEAK0013-5194

[36] YoshidaE.NakazawaM., Opt. Lett.22, 1409 (1997).OPLEDP0146-9592

[37] SchröderJ.AlasiaD.SylvestreT.CoenS., J. Opt. Soc. Am. B25, 1178 (2008).JOBPDE0740-3224

[38] MetcalfA. J.CompanyV. T.SupradeepaV.R.LeairdD. E.WeinerA. M., Opt. Express21, 28029 (2013).OPEXFF1094-4087

[39] ZhaoL. M.TangD. Y.LiuD., Appl. Phys. B99, 441 (2010).

Xuanjuan Chen, Yuxin Gao, Jiamin Jiang, Meng Liu, Aiping Luo, Zhichao Luo, Wencheng Xu. High-repetition-rate pulsed fiber laser based on virtually imaged phased array[J]. Chinese Optics Letters, 2020, 18(7): 071403.

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