Gravitational Hertz experiment in dielectrics, excited by intense laser pulses

The possibility of generating and detection of high-frequency gravitational waves based on parametric optical processes in dielectric media excited by intense laser emission is analyzed. The theory predicts the feasibility of the Hertz gravitational laboratory experiment in dielectric media at the presence of strong constant magnetic field with illumination of this media by intense ultra short laser pulses of visible or ultraviolet ranges. Parametric conversion of ultra short intense laser pulses with frequency ω0 to a gravitational wave with frequency ω g =2ω 0 and reconversion process of gravitational radiation to optical radiation at resonance condition for some dielectrics and photonic structures are predicted