Acta Photonica Sinica, Volume. 52, Issue 1, 0105002(2023)
Two-dimensional Electromagnetically Induced Grating in Microwave Coupled Four-level Atomic System
[1] I V JYOTSNA, G S AGARWAL. Coherent population trapping at low light levels. Physical Review A, 52, 3147(1995).
[2] S E HARRIS, J E FIELD, A IMAMOGLU. Nonlinear optical processes using electromagnetically induced transparency. Physical Review Letters, 64, 1107(1990).
[3] S MENON, G S AGARWAL. Effects of spontaneously generated coherence on the pump-probe response of a Λ system. Physical Review A, 57, 4014(1998).
[4] A W BROWN, M XIAO. All-optical switching and routing based on an electromagnetically induced absorption grating. Optics Letters, 30, 699-701(2005).
[5] M ARTONI, G C LA ROCCA. Optically tunable photonic stop bands in homogeneous absorbing media. Physical Review Letters, 96, 073905(2006).
[6] T H QIU, G J YANG, Q BIAN. Electromagnetically induced second-order Talbot effect. Europhysics Letters, 101, 44004(2013).
[7] Y Y CHEN, Z Z LIU, R G WAN. Beam splitter and router via an incoherent pump-assisted electromagnetically induced blazed grating. Applied Optics, 56, 5736-5744(2017).
[8] H Y LING, Y Q LI, M XIAO. Electromagnetically induced grating: homogeneously broadened medium. Physical Review A, 57, 1338-1344(1998).
[9] J W R TABOSA, A LEZAMA, G C CARDOSO. Transient Bragg diffraction by a transferred population grating: application for cold atoms velocimetry. Optics Communications, 165, 59-64(1999).
[10] A W BROWN, M XIAO. Frequency detuning and power dependence of reflection from an electromagnetically induced absorption grating. Journal of Modern Optics, 52, 2365-2371(2005).
[11] B K DUTTA, P K MAHAPATRA. Electromagnetically induced grating in a three-level Ξ-type system driven by a strong standing wave pump and weak probe fields. Journal of Physics B, 39, 1145(2006).
[12] Z H XIAO, S G SHIN, K KIM. An electromagnetically induced grating by microwave modulation. Journal of Physics B, 43, 161004(2010).
[13] L E E DE ARAUJO. Electromagnetically induced phase grating. Optics Letters, 35, 977-979(2010).
[14] F X ZHOU, Y H QI, H SUN et al. Electromagnetically induced grating in asymmetric quantum wells via Fano interference. Optics Express, 21, 12249-12259(2013).
[15] Z H XIAO, L ZHENG, H Z LIN. Photoinduced diffraction grating in hybrid artificial molecule. Optics Express, 20, 1219-1229(2012).
[16] G L CHENG, W X ZHONG, A X CHEN. Phonon induced phase grating in quantum dot system. Optics Express, 23, 9870-9880(2015).
[17] Hongju GUO, Chen CHEN, Aihong YANG. Voltage control of electromagnetically induced grating in asymmetric double quantum dot system. Laser & Optoelectronics Progress, 58, 2305001(2021).
[18] Tianhui QIU, Guojian YANG. Electromagnetically induced grating in a Λ-type three-level atomic system modulated by a microwave field. Acta Physica Sinica, 61, 172-175(2012).
[19] Song YU, Ping LIAO, Zhanyu YANG et al. Electromagnetically induced grating based on the coherent population trapping. Acta Physica Sinica, 62, 224205(2013).
[20] T NASERI, R SADIGHI-BONABI. Electromagnetically induced phase grating via population trapping condition in a microwave-driven four-level atomic system. Journal of the Optical Society of America B, 31, 2879-2884(2014).
[21] D D MA, D M YU, X D ZHAO et al. Unidirectional and controllable higher-order diffraction by a Rydberg electromagnetically induced grating. Physical Review A, 99, 033826(2019).
[22] C HANG, W B LI, G X HUANG. Nonlinear light diffraction by electromagnetically induced gratings with PT symmetry in a Rydberg atomic gas. Physical Review A, 100, 043807(2019).
[23] Yabin DONG, Jialu PANG, Li YANG et al. Nearly-resonant gain grating in atomic media. Chinese Journal of Lasers, 48, 0312002(2021).
[24] L WANG, F X ZHOU, P D HU et al. Two-dimensional electromagnetically induced cross-grating in a four-level tripod-type atomic system. Journal of Physics B, 47, 225501(2014).
[25] J C WU, B Q AI. Two-dimensional electromagnetically induced cross-grating in a four-level N-type atomic system. Journal of Physics B, 48, 115504(2015).
[26] G L CHENG, L CONG, A X CHEN. Two-dimensional electromagnetically induced grating via gain and phase modulation in a two-level system. Journal of Physics B, 49, 085501(2016).
[27] Y Y CHEN, Z Z LIU, R G WAN. Two-dimensional electromagnetically induced grating in coherent atomic medium. Europhysics Letters, 116, 64006(2017).
[28] Y Y CHEN, Z Z LIU, R G WAN. Electromagnetically induced two-dimensional grating assisted by incoherent pump. Physics Letter A, 381, 1362-1368(2017).
[29] Y Y CHEN, Z Z LIU, R G WAN. Electromagnetically induced 2D grating via refractive index enhancement in a far-off resonant system. Laser Physics Letters, 14, 075202(2017).
[30] T SHUI, W X YANG, S LIU et al. Asymmetric diffraction by atomic gratings with optical PT symmetry in the Raman-Nath regime. Physical Review A, 97, 033819(2018).
[31] Y M LIU, F GAO, J H WU et al. Lopsided diffractions of distinct symmetries in two-dimensional non-Hermitian optical gratings. Physical Review A, 100, 043801(2019).
[32] V G ARKHIPKIN, S A MYSLIVETS. One-and two-dimensional Raman-induced diffraction gratings in atomic media. Physical Review A, 98, 013838(2018).
[33] S H ASADPOUR, T KIROVA, J QIAN et al. Azimuthal modulation of electromagnetically induced grating using structured light. Scientific Reports, 11, 1-11(2021).
[34] M D LUKIN, S F YELIN, M FLEISCHHAUER et al. Quantum interference effects induced by interacting dark resonances. Physical Review A, 60, 3225(1999).
[35] Y P NIU, S Q GONG, R X LI et al. Giant Kerr nonlinearity induced by interacting dark resonances. Optics Letters, 30, 3371-3373(2005).
[36] Z H XIAO, S G SHIN, K KIM. An electromagnetically induced grating by microwave modulation. Journal of Physics B, 43, 161004(2010).
[37] M O SCULLY, M S ZUBAIRY. Quantum optics cambridge university press(1997).
Get Citation
Copy Citation Text
Hongming XIA, Duo ZHANG, Yaqian LI, Zhaoyu SUN, Mei WANG. Two-dimensional Electromagnetically Induced Grating in Microwave Coupled Four-level Atomic System[J]. Acta Photonica Sinica, 2023, 52(1): 0105002
Category:
Received: Jun. 14, 2022
Accepted: Jul. 14, 2022
Published Online: Feb. 27, 2023
The Author Email: ZHANG Duo (zhangduo10@126.com)