Fig. 1. Schematic diagram of a single-mode microcavity interacting with a TLA-bath consisting of a series of two-level atoms: (a) The atoms of bath with QCC passing through the cavity one by one; (b) the atoms of bath without QCC crossing the cavity.单模微腔与一系列二能级原子组成的原子库相互作用示意图　(a)处于QCC库中的二能级原子顺次穿过微腔; (b)库中无QCC情况下, 二能级原子顺次穿过微腔

Fig. 2. The variations of cavity's energy, and , respectively captured from the QCC of GHZ-like state in (a) and the thermal distribution of reference state (thermal state) in (b) with the number of TLAs crossing the cavity ( ), with and for (blue dots), (red dots) and (black dots). In the inset . 腔场在不同耦合参数 (蓝色点线), (红色点线)和 (黑色点线)下, 从不同库态中提取的能量随穿腔原子数 ( ) 的变化 (a)腔场从类GHZ态下QCC中提取能量 随 的变化; (b)腔场从参考态(热态)下原子布局中提取的能量 随 的变化; 其他参数取为 , 10³; 内插图为 在区间 的图形

Fig. 3. The variations of cavity's energy, and , respectively captured from the QCC of -like state in (a) and the thermal distribution of reference state (thermal state) in (b) with the number of TLAs crossing the cavity ( ) and = 0.3 and for (blue dots), (red dots) and (black dots). 腔场在不同有效温度参数 (蓝色点线), (红色点线)和 (黑色点线)下, 从不同库态中提取的能量随穿腔原子数 ( ) 的变化 (a)腔场从类GHZ态下QCC中提取能量 随 的变化; (b)腔场从参考态(热态)下原子布局中提取的能量 随 的变化; 其他参数取为 = 0.3, = 200