Yuanyuan Chen, Weizhi Zhang, Xiaona Yan. Controlling of Goos-Hänchen Shift in Quantum Coherence Surface Plasmon Resonance System[J]. Acta Optica Sinica, 2017, 37(9): 0903001
- Acta Optica Sinica
- Vol. 37, Issue 9, 0903001 (2017)
Fig. 1. Schematic of surface plasmon resonance system
Fig. 2. Energy level diagram of three-level atom medium
Fig. 3. Variation in atomic medium polarizability χ with normalized frequency detuning δp/γ of probe light
Fig. 4. Variation in reflectivity R of probe light with incident angle θp. (a) Coupling light is free propagating wave; (b) coupling light is surface plasmon wave
Fig. 5. Variation in normalized reflection shift S/λ of probe light with incident angle θp. (a) Coupling light is free propagating wave; (b) coupling light is surface plasmon wave
Fig. 6. Variations in (a) reflectivity and (b) reflective shift of probe light with δp/γ when coupling light is free propagating wave
Fig. 7. Variations in (a) reflectivity and (b) reflective shift of probe light with δp/γ when coupling light is surface plasmon wave
Fig. 8. Variation in shift response sensitivity As with δp/γ when θp=43.8°. (a) Coupling light is free propagating wave; (b) coupling light is surface plasmon wave
Fig. 9. Variation in reflection shift of probe light with δp/γ at different Rabi frequencies when θp=43.8°. (a) Coupling light is free propagating wave; (b) coupling light is surface plasmon wave
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