After a short review of the properties of gravitational waves as described in Einstein genertal relativity, the problem of characterizing suitable detectors is addressed in order to define suitable parameters for comparison. The concept of sensitivity as a combination of frequency response function and noise budget at fixed signal to noise ratio is used, looking at the performances of existing optical gravitational waves antennas and of a symmetric Ramsey Bordé (Mach-Zehnder geometry) atom interferometer studied as a protype of new detectors for gravitational radiation.
Atom interferometry for gravitational wave detection
VETRANO, FLAVIO
2014
Abstract
After a short review of the properties of gravitational waves as described in Einstein genertal relativity, the problem of characterizing suitable detectors is addressed in order to define suitable parameters for comparison. The concept of sensitivity as a combination of frequency response function and noise budget at fixed signal to noise ratio is used, looking at the performances of existing optical gravitational waves antennas and of a symmetric Ramsey Bordé (Mach-Zehnder geometry) atom interferometer studied as a protype of new detectors for gravitational radiation.File in questo prodotto:
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