Optical Transistor and Coherent Optical Storage Based on Graphene Optomechanics System

Coherent optical wavelength conversion via cavity optomechanics.

Both classical and quantum systems utilize the interaction of light and matter across a wide range of energies. These systems are often not naturally compatible with one another and require a means of converting photons of dissimilar wavelengths to combine and exploit their different strengths. Here we theoretically propose and experimentally demonstrate coherent wavelength conversion of optica...

Information for “ Coherent optical wavelength conversion via cavity - optomechanics ”

Optical klystron FEL scheme for x-ray coherent harmonic generation at ISLF storage ring

The possibility of inserting an optical klystron on the storage ring of an Iranian Light Source Facility as a Synchrotron Radiation Free electron Laser for coherence harmonic generation in the soft x-ray spectrum has been studied. The study has been performed using the 3D FEL simulation code GENESIS 1.3 and in accordance with the available characteristic parameters of ISLF. Different potential ...

Coherent nonlinear optical response of graphene.

We investigate the nonlinear optical properties of graphene flakes using four-wave mixing. The corresponding third-order optical susceptibility is found to be remarkably large and only weakly dependent on the wavelength in the near-infrared frequency range. The magnitude of the response is in good agreement with our calculations based on the nonlinear quantum response theory.

optomechanics of deformable optical cavities

The optomechanics of deformable optical cavities has seen a recent surge of interest. Research in this field, which started about 40 years ago, was and still largely remains driven by questions relating to the physics of measurements at the quantum fundamental limit. Good examples of this are the theoretical proposals formulated in the 1990s to perform quantum nondemolition measurements of the ...