Vibration induced transparency: Simulating an optomechanical system via the cavity QED setup with a movable atom

@article{Weng2022VibrationIT,
  title={Vibration induced transparency: Simulating an optomechanical system via the cavity QED setup with a movable atom},
  author={Ming Tsung Weng and Tian Tian and Zhihai Wang},
  journal={Fundamental Research},
  year={2022}
}

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References

SHOWING 1-10 OF 22 REFERENCES

Electromagnetically induced transparency and slow light with optomechanics

Measurements at room temperature in the analogous regime of electromagnetically induced absorption show the utility of these chip-scale optomechanical systems for optical buffering, amplification, and filtering of microwave-over-optical signals.

Optomechanically Induced Transparency

Electromagnetically induced transparency in an optomechanical system whereby the coupling of a cavity to a light pulse is used to control the transmission of light through the cavity may help to allow the engineering of light storage and routing on an optical chip.

Fundamentals and applications of optomechanically induced transparency

Cavity optomechanical systems have been shown to exhibit an analogon to atomic electromagnetically induced transparency that a transmission window for the propagation of the probe field is induced by

A proposed method to measure weak magnetic field based on a hybrid optomechanical system

This work presents an alternative way to measure the magnetic field with a precision of 0.1 nT, and shows that the effective cavity resonance frequency will be revised due to the electromagnetic interactions.

Ultrasensitive mass sensing with a nanotube electromechanical resonator.

This Letter goes further in size reduction using a 1 nm diameter carbon nanotube as a mechanical resonator for mass sensing by cooling the nanotubes down to 5 K in a cryostat, and the signal for the detection of mechanical vibrations is improved.

An atomic-resolution nanomechanical mass sensor.

This work demonstrates a room-temperature, carbon-nanotube-based nanomechanical resonator with atomic mass resolution, and observes atomic mass shot noise, analogous to the electronic shot noise measured in many semiconductor experiments.

Intersublevel infrared photodetector with strain-free GaAs quantum dot pairs grown by high-temperature droplet epitaxy.

Normal incident photodetection at mid infrared spectral region is achieved using the intersublevel transitions from strain-free GaAs quantum dot pairs in Al(0.3)Ga(0.7)As matrix. The GaAs quantum dot

Controlling photons using electromagnetically induced transparency

Theoretical and experimental work has demonstrated that this phenomenon can be used to slow down light pulses dramatically, or even bring them to a complete halt.

Storage and retrieval of single photons transmitted between remote quantum memories

The generation, transmission, storage and retrieval of single quanta using two remote atomic ensembles is reported, an important step towards distributed quantum networks.