Acta Optica Sinica, Volume. 43, Issue 19, 1919001(2023)
Storage and Retrieval of Optical Soliton in N-Type Quantum Well EIT Medium Under High-Order Effects
[1] Liu C, Dutton Z, Behroozi C H et al. Observation of coherent optical information storage in an atomic medium using halted light pulses[J]. Nature, 409, 490-493(2001).
[2] Phillips D F, Fleischhauer A, Mair A et al. Storage of light in atomic vapor[J]. Physical Review Letters, 86, 783-786(2001).
[3] Winbow A G, Hammack A T, Butov L V et al. Photon storage with nanosecond switching in coupled quantum well nanostructures[J]. Nano Letters, 7, 1349-1351(2007).
[4] Haus H A, Wong W S. Solitons in optical communications[J]. Reviews of Modern Physics, 68, 423-444(1996).
[5] Wu Y, Deng L. Ultraslow optical solitons in a cold four-state medium[J]. Physical Review Letters, 93, 143904(2004).
[6] Huang G X, Jiang K J, Payne M G et al. Formation and propagation of coupled ultraslow optical soliton pairs in a cold three-state double-Λ system[J]. Physical Review E, 73, 056606(2006).
[7] Luo T T, Wang D L, She Y C et al. Collision characteristics of two coupled temporal vector optical solitons in quantum dot[J]. Acta Optica Sinica, 36, 0227001(2016).
[8] Dong Y Y, Wang D L, Wang Y et al. Matching group velocity of bright and/or dark solitons via double-dark resonances[J]. Physics Letters A, 382, 2006-2012(2018).
[9] Wang M, Hang C. Intrapulse four-wave mixing and four-component ultraslow optical solitons[J]. Acta Optica Sinica, 38, 1019001(2018).
[10] Bai J, Yang R C, Tian J P. Femtosecond quasi-bright soliton solution and its properties under influence of higher-order effects in metamaterials[J]. Acta Optica Sinica, 40, 0219001(2020).
[11] Zhang X F, Yang Q, Zhang J F et al. Controlling soliton interactions in Bose-Einstein condensates by synchronizing the Feshbach resonance and harmonic trap[J]. Physical Review A, 77, 023613(2008).
[12] Hang C, Huang G X. Parity-time symmetry along with nonlocal optical solitons and their active controls in a Rydberg atomic gas[J]. Physical Review A, 98, 043840(2018).
[13] Li Z D, Wang Y Y, He P B. Formation mechanism of asymmetric breather and rogue waves in pair-transition-coupled nonlinear Schrödinger equations[J]. Chinese Physics B, 28, 010504(2019).
[14] Wang Y, Ding J W, Wang D L. Controllable double tunneling induced optical soliton storage in linear triple quantum dot molecules[J]. The European Physical Journal D, 74, 190-197(2020).
[15] Tian X C, Tan C H. Research on all-optical switch based on moment barrier modulation in coherent media[J]. Acta Optica Sinica, 42, 2126005(2022).
[16] Zhou S J, Wang D L, Dong Y Y et al. Controllable storage and retrieval of optical solitons in triple quantum dot molecules by inter-dot tunneling coupling effect[J]. Physics Letters A, 448, 128320(2022).
[17] Bai Z Y, Hang C, Huang G X. Storage and retrieval of ultraslow optical solitons in coherent atomic system[J]. Chinese Optics Letters, 11, 012701(2013).
[18] Chen Y, Bai Z Y, Huang G X. Ultraslow optical solitons and their storage and retrieval in an ultracold ladder-type atomic system[J]. Physical Review A, 89, 023835(2014).
[19] Hang C, Huang G X. Weak-light ultraslow vector solitons via electromagnetically induced transparency[J]. Physical Review A, 77, 033830(2008).
[20] Dong Y Y, Zheng X J, Wang D L et al. Fluctuation-enhanced Kerr nonlinearity in an atom-assisted optomechanical system with atom-cavity interactions[J]. Optics Express, 29, 5367-5383(2021).
[21] Guan J, Zhu C J. Electromagnetic induced transparency in Pr3+∶Y2SiO5 doped waveguide[J]. Acta Optica Sinica, 42, 2126009(2022).
[22] Chen Y, Chen Z M, Huang G X. Storage and retrieval of vector optical solitons via double electromagnetically induced transparency[J]. Physical Review A, 91, 023820(2015).
[23] Shou C, Huang G X. Slow-light soliton beam splitters[J]. Physical Review A, 99, 043821(2019).
[24] Ku P C, Sedgwick F, Chang-Hasnain C J et al. Slow light in semiconductor quantum wells[J]. Optics Letters, 29, 2291-2293(2004).
[25] Winbow A G, Butov L V, Gossard A C. Photon storage with subnanosecond readout rise time in coupled quantum wells[J]. Journal of Applied Physics, 104, 063515(2008).
[26] Simon C, Afzelius M, Appel J et al. Quantum memories: a review based on the European integrated project "qubit applications (QAP)[J]. The European Physical Journal D, 58, 1-22(2010).
[27] Phillips M, Wang H L. Electromagnetically induced transparency due to intervalence band coherence in a GaAs quantum well[J]. Optics Letters, 28, 831-833(2003).
[28] Frogley M D, Dynes J F, Beck M et al. Gain without inversion in semiconductor nanostructures[J]. Nature Materials, 5, 175-178(2006).
[29] Li J H. Controllable optical bistability in a four-subband semiconductor quantum well system[J]. Physical Review B, 75, 155329(2007).
[30] Wang Z P. Control of the optical multistability in a three-level ladder-type quantum well system[J]. Optics Communications, 282, 4745-4748(2009).
[31] Sun H, Gong S Q, Niu Y P et al. Enhancing Kerr nonlinearity in an asymmetric double quantum well via Fano interference[J]. Physical Review B, 74, 155314(2006).
[32] Du Y J, Yang Z Y, Xie X T et al. Influence of higher nonlinearity to optical solitons in electromagnetically induced transparency medium[J]. Acta Optica Sinica, 35, 0227002(2015).
[33] Yang W X, Hou J M, Lin Y Y et al. Detuning management of optical solitons in coupled quantum wells[J]. Physical Review A, 79, 033825(2009).
[34] Tang H, Wang D L, Zhang W X et al. Controlling of dark or bright soliton type in a cascade-type electromagnetically induced transparency semiconductor quantum well by the coupling longitudinal optical phonons[J]. Acta Physica Sinica, 66, 034202(2017).
[35] Zhu C J, Huang G X. Slow-light solitons in coupled asymmetric quantum wells via interband transitions[J]. Physical Review B, 80, 235408(2009).
[36] Gedalin M, Scott T C, Band Y B. Optical solitary waves in the higher order nonlinear Schrödinger equation[J]. Physical Review Letters, 78, 448-451(1997).
[37] Hang C, Huang G X, Deng L. Generalized nonlinear Schrödinger equation and ultraslow optical solitons in a cold four-state atomic system[J]. Physical Review E, 73, 036607(2006).
[38] Du Y J, Yang Z Y, Bai J T. High order nonlinear characteristics for electromagnetically induced transparency media[J]. Acta Optica Sinica, 34, 0627001(2014).
[39] Ren B, She Y C, Xu X F et al. Stability of optical soliton in symmetrical three-quantum-dot system under high-order effects[J]. Acta Physica Sinica, 70, 224205(2021).
[40] Tang H, Wang D L, She Y C et al. Dynamical analysis of temporal soliton with high order effects and cross-coupling relaxation of longitudinal optical phonons in double quantum wells[J]. The European Physical Journal D, 70, 22-29(2016).
[41] Roskos H G, Nuss M C, Shah J et al. Coherent submillimeter-wave emission from charge oscillations in a double-well potential[J]. Physical Review Letters, 68, 2216-2219(1992).
[42] Pötz W. Coherent control of light absorption and carrier dynamics in semiconductor nanostructures[J]. Physical Review Letters, 79, 3262-3265(1997).
[43] Hao X Y, Liu J B, Lü X Y et al. Ultraslow optical solitons in a coupled double quantum-well nanostructure[J]. Communications in Theoretical Physics, 51, 519-523(2009).
[44] Luo X Q, Wang D L, Zhang Z Q et al. Nonlinear optical behavior of a four-level quantum well with coupled relaxation of optical and longitudinal phonons[J]. Physical Review A, 84, 033803(2011).
[45] Nie Z Q, Zheng H B, Li P Z et al. Interacting multiwave mixing in a five-level atomic system[J]. Physical Review A, 77, 063829(2008).
[46] Li P Y, Zheng H B, Zhang Y Q et al. Controlling the transition of bright and dark states via scanning dressing field[J]. Optical Materials, 35, 1062-1070(2013).
[47] Fleischhauer M, Imamoglu A, Marangos J P. Electromagnetically induced transparency: optics in coherent media[J]. Reviews of Modern Physics, 77, 633-673(2005).
[48] Neogi A. Transient interband light modulation via intersubband coupling light in undoped semiconductor quantum wells[J]. Optics Communications, 133, 479-486(1997).
[49] Neogi A, Yoshida H, Mozume T et al. Enhancement of interband optical nonlinearity by manipulation of intersubband transitions in an undoped semiconductor quantum well[J]. Optics Communications, 159, 225-229(1999).
[50] Xue Y, Su X M, Wang G et al. Photon switch in a quantum well by quantum interference in interband transitions[J]. Optics Communications, 249, 231-237(2005).
[51] Wang Z G, Zheng Z R, Yu J H. Transient gain property of a weak probe field in an asymmetric semiconductor coupled double quantum well structure[J]. Physics Letters A, 370, 113-118(2007).
Get Citation
Copy Citation Text
Mingjun Hu, Denglong Wang, Yaoyong Dong, Jianwen Ding. Storage and Retrieval of Optical Soliton in N-Type Quantum Well EIT Medium Under High-Order Effects[J]. Acta Optica Sinica, 2023, 43(19): 1919001
Category: Nonlinear Optics
Received: Mar. 6, 2023
Accepted: Apr. 23, 2023
Published Online: Oct. 23, 2023
The Author Email: Denglong Wang (dlwang@xtu.edu.cn)