Slow-light dispersion of a cavity polariton in an organic crystal microcavity

被引:0
作者
Amano, Masamitsu [1 ]
Otsuka, Kazuhito [1 ]
Fujihara, Tohru [2 ]
Kondo, Hisao [2 ]
Bando, Kazuki [1 ]
机构
[1] Shizuoka Univ, Fac Sci, Dept Phys, 836 Ohya, Suruga, Shizuoka 4228529, Japan
[2] Ehime Univ, Dept Phys, Matsuyama, Ehime 7908577, Japan
来源
APPLIED PHYSICS LETTERS | 2022年 / 120卷 / 13期
关键词
PULSE-PROPAGATION; SINGLE-CRYSTAL; COHERENT PROPAGATION; EXCITON; EMISSION; BEHAVIOR; MODE;
D O I
10.1063/5.0079497
中图分类号
O59 [应用物理学];
学科分类号
摘要
Herein, we have measured the phase dispersion of a cavity polariton in a single-crystalline anthracene microcavity via interference spectroscopy. Results show slow-light dispersion at the cavity polariton's lower polariton resonance, which agrees well with the transfer matrix method calculation results. According to the theoretical calculations, the slow-light dispersion's group refractive index is 24. We found that the structural dispersion due to a phenomenological photon cavity and material dispersion caused by the exciton contributed to the large group refractive index. These efforts will aid in realizing optical buffer memories for organic microcavities. Published under an exclusive license by AIP Publishing.
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页数:6
相关论文
共 42 条
[1]   Slow light in photonic crystals [J].
Baba, Toshihiko .
NATURE PHOTONICS, 2008, 2 (08) :465-473
[2]   Cavity Polaritons in a Single-Crystalline Organic Microcavity Prepared at Room Temperature Using a Simple Solution Technique [J].
Bando, Kazuki ;
Nagai, Hikaru ;
Amano, Masamitsu ;
Kanezashi, Keigo ;
Kumeta, Shohei ;
Kondo, Hisao .
APPLIED PHYSICS EXPRESS, 2013, 6 (11)
[3]   OPTICAL HARMONIC-GENERATION AND MIXING IN MULTILAYER MEDIA - EXTENSION OF OPTICAL TRANSFER-MATRIX APPROACH TO INCLUDE ANISOTROPIC MATERIALS [J].
BETHUNE, DS .
JOURNAL OF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS, 1991, 8 (02) :367-373
[4]  
Boyd R.W., 2002, PROG OPT, V43, P479
[5]   Material slow light and structural slow light: similarities and differences for nonlinear optics [Invited] [J].
Boyd, Robert W. .
JOURNAL OF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS, 2011, 28 (12) :A38-A44
[6]   Room-temperature polariton lasing in semiconductor microcavities [J].
Christopoulos, S. ;
von Hogersthal, G. Baldassarri Hoger ;
Grundy, A. J. D. ;
Lagoudakis, P. G. ;
Kavokin, A. V. ;
Baumberg, J. J. ;
Christmann, G. ;
Butte, R. ;
Feltin, E. ;
Carlin, J. -F. ;
Grandjean, N. .
PHYSICAL REVIEW LETTERS, 2007, 98 (12)
[7]   LINEAR PULSE-PROPAGATION IN AN ABSORBING MEDIUM [J].
CHU, S ;
WONG, S .
PHYSICAL REVIEW LETTERS, 1982, 48 (11) :738-741
[8]   Strong Exciton-Photon Coupling and Lasing Behavior in All-Inorganic CsPbBr3 Micro/Nanowire Fabry-Perot Cavity [J].
Du, Wenna ;
Zhang, Shuai ;
Shi, Jia ;
Chen, Jie ;
Wu, Zhiyong ;
Mi, Yang ;
Liu, Zhixiong ;
Li, Yuanzheng ;
Sui, Xinyu ;
Wang, Rui ;
Qiu, Xiaohui ;
Wu, Tom ;
Xiao, Yunfeng ;
Zhang, Qing ;
Liu, Xinfeng .
ACS PHOTONICS, 2018, 5 (05) :2051-2059
[9]   Two-dimensional hybrid perovskites sustaining strong polariton interactions at room temperature [J].
Fieramosca, A. ;
Polimeno, L. ;
Ardizzone, V. ;
De Marco, L. ;
Pugliese, M. ;
Maiorano, V. ;
De Giorgi, M. ;
Dominici, L. ;
Gigli, G. ;
Gerace, D. ;
Ballarini, D. ;
Sanvitto, D. .
SCIENCE ADVANCES, 2019, 5 (05)
[10]   COHERENT PROPAGATION AND QUANTUM BEATS OF QUADRUPOLE POLARITONS IN CU2O [J].
FROHLICH, D ;
KULIK, A ;
UEBBING, B ;
MYSYROWICZ, A ;
LANGER, V ;
STOLZ, H ;
VONDEROSTEN, W .
PHYSICAL REVIEW LETTERS, 1991, 67 (17) :2343-2346
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