Signs of cosmic rays gravitational wave detectors

One of the phenomena predicted by Einstein in the derivation of general relativity is the existence of small perturbations of the metric that he named gravitational waves.As they travel through space oscillates the space-time according to its polarization.This is the only major prediction of general relativity not yet proven completely.The small signal generated by the passage of a gravitational wave compared to the noise in the system of detection makes their direct detection one challenge of modern science.In this paper we study the noise generated by cosmic rays in the gravitational antenna Mario Schenberg,located in the city of Sao Paulo.Single muons and hadrons flux measurements held in the northern hemisphere were used to calculate the expected flux of these particles in the city of Sao Paulo. The calculation of the energy deposited in the detector of gravitational waves from cosmic rays was performed by Monte arlo simulations using Geant4.The transport of muons and protons,with several energy and some different angles of incidence,across the building and the resonant sphere was simulated.We developed a thermo-acoustic model,called multi-point,suitable for calculating the energy deposited in the normal modes from the energy deposited on the sphere by elementary particles. With these results we calculate the expected rate of cosmic ray signals in the main detection mode of gravitational waves,nl =12,of the Mario Schenberg detector,for temperatures Tnoise between 10 -5 and 10 -7 K.The results showed for the designed for 4.2 K sensitivity of the Mario Schenberg detector that the rate of signals due to cosmic rays is very small,being around 5 events per day.However,when it will reach the quantum limit will be needed a more detailed analysis of the antenna signal output,since the expected number of cosmic ray noise increases considerably,reaching about 250 signals per day (AU)