激光场作用下原子系统中光学烧孔和慢光效应
[1] Bennett W R. Hole burning effects in a He-Ne optical maser[J]. Phys Rev, 1962, 126(2): 580-594.
[2] Shakhmuratov R N, Rebane A, Mégret P, et al. Slow light with persistent hole burning[J]. Phys Rev A, 2005, 71: 053811.
[3] Brennen G, Giacobino E, Simon C. Focus on quantum memory[J]. New J Phys, 2015, 17(5): 050201.
[4] Saeedi K, Simmons S, Salvail J Z, et al. Room-temperature quantum bit storage exceeding 39 minutes using ionized donors in silicon-28[J]. Science, 2013, 342(6160): 830-833.
[5] Rajan R P, Riesen H, Rebane A. Controlling pulse delay by light and low magnetic fields: slow light in emerald induced by transient spectral hole-burning[J]. Optics Lett, 2013, 38(22): 4546-9.
[6] Krimer D O, Hartl B, Rotter S. Hybrid quantum systems with collectively coupled spin states: suppression of decoherence through spectral hole burning[J]. Phys Rev Lett, 2015, 115(3): 033601.
[7] Dong P, Gao J Y. Appearance and disappearance of hole-burning behind an electromagnetically induced transparency window[J]. Phys Lett A, 2000, 265: 52-57.
[8] Wei X G, Wu J H, Wang H H, et al. First-principles experimental observation of coherent hole burnings in atomic rubidium vapor[J]. Phys Rev A, 2006, 74: 063820.
[9] He Q Y, Zhang B, Wei X G, et al. Slow light by coherent hole burnings[J]. Phys Rev A, 2008, 77(6): 063827.
李东康, 刘玉娟. 激光场作用下原子系统中光学烧孔和慢光效应[J]. 红外与激光工程, 2016, 45(12): 1206005. Li Dongkang, Liu Yujuan. Optical hole-burnings and slow light in atoms vapors with laser interaction[J]. Infrared and Laser Engineering, 2016, 45(12): 1206005.