图  1  能级图与光场空间波矢量配置图　(a) 二能级DFWM; (b) Λ型三能级dressed-DFWM; (c) 光场空间矢量的相位配置图

Figure  1.  Energy level and laser fields’ geometric configuration: (a) Two-level DFWM; (b) Λ-type three-level dressed-DFWM; (c) phase-matching configuration of laser fields’ wave vectors.

图  2  FWM强度增益谱的理论模拟曲线, 其中虚线为DFWM, 实线为dressed-DFWM, 使用参数为: ${\varOmega _1} \!=\! {\varOmega _2} \!=\! 2{\text{π}} \cdot 110\;{\rm{MHz}}$ , ${\varOmega _{\rm{p}}} = 2{\text{π}} \cdot 10\;{\rm{MHz}}$ , ${\varGamma _{10}} = 2{\text{π}} \cdot 1\; {\rm{kHz}}$ , ${\varGamma _{21}} = {\varGamma _{11}} = 2{\text{π}} \cdot 4.6 $ $ \;{\rm{MHz}}$ , $T = 60 \;{ ^ \circ }{\rm{C}}$

Figure  2.  The theoretical curves of FWM intensity gain spectrum, the dashed curve is for the DFWM, and the solid curve is for the dressed-DFWM. The parameters: ${\varOmega _1} = {\varOmega _2} = 2{\text{π}} \cdot 110\;{\rm{MHz}}$ , ${\varOmega _{\rm{p}}} = 2{\text{π}} \cdot 10\;{\rm{MHz}}$ , ${\varGamma _{10}} = 2{\text{π}} \cdot 1 $ $ \; {\rm{kHz}}$ , ${\varGamma _{21}} = {\varGamma _{11}} = 2{\text{π}} \cdot 4.6\;{\rm{MHz}}$ , $T = 60 \;{ ^ \circ }{\rm{C}}$ .

图  3  实验装置示意图, 双向箭头代表光场偏振方向, GT: 格兰-泰勒棱镜, S: 光屏, PD: 光电探测器

Figure  3.  The sketch of experimental setup. The double-headed arrow stands for the light polarization. GT: Glan-Taylor prism, S: screen, PD: photo detector.

图  4  光斑图样与增益谱线　(a), (b) 关闭泵浦场 ${E_1}$ 时的EIT效应; (c), (d) 关闭缀饰场 ${E_2}$ 时的DFWM效应; (e), (f) ${E_1}$ , ${E_2}$ 同时打开时的Dressed-DFWM效应. 实验参数: 泵浦场光功率 ${P_1} = 40 \;{\rm{ mW}}$ , 缀饰场光功率 ${P_2} = 40 \;{\rm{ mW}}$ , 缀饰场失谐 $ {\varDelta _2} = 0$

Figure  4.  Laser beams’ pattern and gain spectrum: (a), (b) the EIT effect when the pump field ${E_1}$ is turned off; (c), (d) the DFWM effect when the dressed field ${E_2}$ is turned off; (e), (f) the Dressed-DFWM effect when both ${E_1}$ and ${E_2}$ are turned on. Experimental parameters: the pump field power: ${P_1} = 40 \;{\rm{ mW}}$ , the dressed field power: ${P_2} = 40\;{\rm{ mW}}$ , the dressed field detuning $ {\varDelta _2} = 0$ .

图  5  缀饰场失谐 $ {\varDelta _2}$ 分别为 (i) 0, (ii) $ 2{\text{π}} \cdot 100 \;{\rm{MHz}}$ 以及 (iii) $ 2{\text{π}} \cdot 200 \;\;{\rm{MHz}}$ 的增益谱　(a) 探测光信道 ${E_{\rm{p}}}$ ; (b) DFWM光信道 ${E_{\rm{f}}}$ . 实验参数: ${P_1} = 40 \;{\rm{mW}}$ , ${P_2} = 40 \;{\rm{mW}}$ , ${P_{\rm{p}}} = 30\;{\rm{\text{μ} W}}$

Figure  5.  Gain spectrum with dressed field detuning $ {\varDelta _2}$ at (i) $ 0$ , (ii) $ 2{\text{π}} \cdot 100 \;{\rm{MHz}}$ , and (iii) $ 2{\text{π}} \cdot 200 \;\;{\rm{MHz}}$ : (a) The probe channel ${E_{\rm{p}}}$ ; (b) the DFWM channel ${E_{\rm{f}}}$ . Experimental parameters: ${P_1} = 40 \;{\rm{mW}}$ , ${P_2} = 40 \;{\rm{mW}}$ , ${P_{\rm{p}}} = 30\;{\rm{\text{μ} W}}$ .

图  6  (a), (b) 固定 $ {\varDelta _2} = 0$ 时缀饰场功率 $P_2$ 分别为 (i) $ 10\;{\rm{mW}}$ , (ii) $ 50\;{\rm{mW}}$ 以及 (iii) $ 100\;{\rm{mW}}$ 的增益谱　(a) ${E_{\rm{p}}}$ 信道; (b) ${E_{\rm{f}}}$ 信道; (c), (d) AT 分裂间距随缀饰场拉比频率变化的关系曲线: (c) $ {\varDelta _2} = 0$ , (d) $ {\varDelta _2} = 2{{\pi}} \cdot 200\;{\rm{MHz}}$ . 实验参数: ${P_1} \!=\! 40 \;{\rm{mW}}$ , ${P_{\rm{p}}} \!=\! 30 \;{\rm{\text{μ}W}}$

Figure  6.  (a, b) Gain spectrum with dressed power at (i) $ 10\;{\rm{mW}}$ , (ii) $ 50\;{\rm{mW}}$ , and (iii) $ 100\;{\rm{mW}}$ when $ {\varDelta _2} = 0$ . (a) The ${E_{\rm{p}}}$ channel; (b) the ${E_{\rm{f}}}$ channel; (c), (d) the curves for the AT splitting versus the dressed field’s Rabi frequencies: (c) $ {\varDelta _2} = 0$ , (d) $ {\varDelta _2} = $ $ 2{\text{π}} \cdot 200\;{\rm{MHz}}$ . Experimental parameters: ${P_1} = 40 \;{\rm{mW}}$ , ${P_{\rm{p}}} = 30 \;{\rm{\text{μ} W}}$ .