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We analytically and numerically investigate a signal light storing mechanism based on controllable electromagnetically induced transparency (EIT) effect. We demonstrate that the isolation between the waveguide and the cavities cannot… Click to show full abstract
We analytically and numerically investigate a signal light storing mechanism based on controllable electromagnetically induced transparency (EIT) effect. We demonstrate that the isolation between the waveguide and the cavities cannot be achieved instantly as soon as the two cavities are tuned into resonance, no matter the index tuning rate is ultrafast or slow. We also investigate the temporal evolution features of the intracavity energy when the pulse during time is prolonged. We find many periodical oscillations of the trapped energy in both cavities, and they are entirely complementary. Our analysis shows that the adiabatic wavelength conversion in both cavities and a phase difference “π” between them play critical rules for this phenomenon.
Journal Title: Chinese Physics B
Year Published: 2023
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