[1] SHAN Xin, SUN Xian-ping, LUO Jun, et al. Free-space quantum key distribution with Rb vapor filters[J].Applied physics letters, 2006, 89(19): 191121.
[2] BUTTLER W T, HUGHES R J, KWIAT P G, et al. Practical free-space quantum key distribution over 1 km[J].Physical Review Letters, 1998, 81(15): 3283-3286.
[3] MENDERS J, SEARCY P, ROFF K, et al. Blue cesium faraday and voigt magneto-optic atomic line filters[J]. Optics Letters, 1992, 17(19): 1388-1390.
[4] DICK D J, SHAY T M. Ultrahigh-noise rejection optical filter[J].Optics Letters, 1992, 16(11): 867-869.
[5] HFFNER J, BEGEMANN C F. Accurate lidar temperatures with narrowband filters[J].Optics Letters, 2005, 30(8): 890-892.
[6] YIN B, SHAY T M. Theoretical model for a Faraday anomalous dispersion optical filter[J].Optics Letters, 1991, 16(20): 1617-1619.
[7] CHEN H, SHE C Y, SEARCY P, et al. Sodium-vapor dispersive Faraday filter[J].Optics Letters, 1993, 18(12): 1019-1021.
[8] YIN B, SHAY T. A potassium Faraday anomalous dispersion optical filter[J]. Optics Communications, 1992, 94(1-3): 30-32.
[9] ZIELISKA J A, BEDUINI F A, GODBOUT N, et al. Ultranarrow faraday rotation filter at the Rb D1 line[J]. Optics Letters, 2012, 37(4): 524-526.
[10] MENDERS J, BENSON K, BLOOM S H, et al. Ultranarrow line filtering using a Cs Faraday filter at 852 nm[J]. Optics Letters, 1991, 16(11): 846-848.
[11] CHAN Y C, GELBWACHS J. A Fraunhofer-wavelength magnetooptic atomic filter at 422.7 nm[J].IEEE Journal of Quantum Electronic, 1993, 29(8): 2379-2384.
[12] SHAN Xin, SUN Xian-ping, LUO Jun, et al. Ultranarrow-bandwidth atomic filter with Raman light amplification[J]. Optics Letters, 2008, 33(16): 1842-1844.
[13] TAN Zheng, SUN Xianping, LUO Jun, et al. Narrowband switchable dual-passband atomic filter with four-wave mixing optical amplification[J].Chinese Optics Letters, 2011, 9(2): 021405.