Weak-light nonlinear optical effect and its application
-
摘要: 简要介绍了弱光非线性光学领域中一些研究方向的进展,如弱光非线性光子学材料中的缺陷结构、介观量子相干系统中光传播动力学和慢光非线性光学等,着重描述了近期在新型激子与紫外弱光非线性光学效应、位相耦合与光速调控以及非相干空间孤子阵列诱导光学晶格与光非线性传输行为等研究中得到的研究结果。弱光非线性光学将成为非线性光学应用领域中的一个重要分支。Abstract: Some recent work on weak-light nonlinear optics is presented,such as the defect structure in weak-light nonlinear photonic materials,light propagation dynamics in mesoscopic quantum coherent ensemble,optical nonlinearity at ultraslow group velocity of light and so on.The recent research results in new type exciton with ultraviolet weak-light nonlinear optical effect,the phase coupling with light speed control,and optical lattices induced by spatial soliton pixels of incoherent light with the light nonlinear propagation characters are also described.
-
Keywords:
- nonlinear optics /
- weak-light /
- defect /
- soliton /
- incoherence
-
-
[1] LIU S M,GUO R,XU J J.The photorefractive nonlinear optics and its application[M].Beijing:Science Press,2004.1~6 (in Chinese).
[2] SEGEV M,CROSIGNANI B,YARIV A.Spatial solitons in photorefractive media[J].Phys Rev Lett,1992,68(7):923~926.
[3] HARRIS S E.Electromagnetically induced transparency[J].Physics Today,1997,50(7):36~42.
[4] AKULSHIN A M,BARREIRO S,LEZAMA A.Electromagnetically induced absorption and transparency due to resonant two-field excitation of quasidegenerate levels in Rb vapor[J].Phys Rev,1998,A57(4):2996~3002.
[5] ZIBROV A S,LUKIN M D,NIKNOV D E et al.Experimental demonstration of laser oscillation without population inversion via quantum interference in Rb[J].Phys Rev Lett,1995,75 (8):1499~1502.
[6] HAUL V,HARRIS S E,DUTTON Z et al.Light speed reduction to 17 metres per second in an ultracold atomic gas[J].Nature,1999,397(6720):594~598.
[7] LUKIN M D,FLEISCHHAUER M,ZZIBROV A S et al.Spectroscopy in dense coherent media:line narrowing and interference effects[J].Phys Rev Lett,1997,79(16):2959~2962.
[8] KONG Y F,XU J J,ZHANG G Y et al.Multifunctional photoelectric material——LN crystal[M].Beijing:Science Press,2005.241~282(in Chinese).
[9] QIAO H J,XU J J,ZHANG G Q et al.Ultraviolet photorefractivity features in doped lithium niobate crystals[J].Phys Rev,2004,B70(9):094101-1~094101-11.
[10] VIKHNIN V,EGLITS R,KAPPHAN S et al.Polaronic-type excitons in ferroelectric oxides:microscopic calculations and experimental manifestation[J].Phys Rev,2002,B65(10):104304-1~104304-11.
[11] XU J J,ZHANG G Y,LI F et al.Enhancement of ultraviolet photorefraction in highly magnesium-doped lithium niobate crystals[J].Opt Lett,2000,25 (2):129~131.
[12] QIAO H J,XU J J,KONG Y F et al.UV photorefractive effect in Na+-doped lithium niobate crystals[J].OSA Trends in Optics and Photonics(TOPS),2001,62:490.
[13] QIAO H J,XU J J,YU X J et al.Two-wave coupling oin zinc doped lithium niobate crystals[J].OSA Trends in Optics and Photonics (TOPS),2003,87:166~171.
[14] TURUKIN A V,SUDARSHANAM V S,SHAHRIAR M S et al.Observation of ultraslow and stored light pulses in a solid[J].Phys Rev Lett,2002,88(2):023602-1~023602-4.
[15] LIN S H,HSU K Y,YEH P.Experimental observation of the slowdown of optical beams by a volume-index grating in a photorefractive LiNbO3 crystal[J].Opt Lett,2000,25(21):1582~1584.
[16] BIGELOW M S,LEPESHKIN N N,BOYD R W.Superluminal and slow light propagation in a room-temperature solid[J].Science,2003,301 (5630):200~202.
[17] ZHANG G Q,BO F,DONG R et al.Phase-coupling-induced ultraslow light propagation in solids at room temperature[J].Phys Rev Lett,2004,93(13):133903-1~133903-4.
[18] ZHANG G Q,DONG R,XU J J.Group velocity reduction of light pulses in photorefractive two-wave mixing[J].Chinese Physics Letters,2003,20(10):1725~1728.
[19] ZHANG G Q,DONG R,BO F et al.Slowdown of group velocity of light by means of phase coupling in photorefractive two-wave mixing[J].Appl Opt,2004,43(5):1167~1173.
[20] CHEN Z,MITCHELL M,SEGEV M et al.Self-trapping of dark incohe rent light beams[J].Science,1998,280 (5365):889~892.
[21] CHEN Z G,MARTIN H,EUGENIEVA E D et al.Anisotropic enhancement of discrete diffraction and formation of two-dimensional discrete-soliton trains[J].Phys Rev Lett,2004,92(14):143902-1~143902-4.
[22] CHEN Z,MARTIN H,EUGENIEVA E D et al.Formation of discrete solitons in light-induced photonic lattices[J].Optics Express,2005,13(6):1816~1826.
[23] CHEN Zh G,XU J J,LOU C B.Novel discrete solitous in light-induced photonic lattice[J].Physics,2005,34 (1):12~17 (in Chinese).
[24] LOU C B,XU J J,QIAO H J et al.Enhanced second-harmonic generation by means of high-power confinement in a photovoltaic solitoninduced waveguide[J].Opt Lett,2004,29(9):953~955.
[25] CHRISTODOULIDES D N,LEDERER F L,SIBERBERG Y.Discretizing light behaviour in linear and nonlinear waveguide lattices[J].Nature,2003,424(6950):817~823.
[26] HOU Ch F,YUAN B H,XU K B.Research progress of photorefractive spatial optical soliton[J].Laser Technology,2000,24(3):167~171 (in Chinese).
计量
- 文章访问数: 0
- HTML全文浏览量: 0
- PDF下载量: 4
下载: