Starting from the original experiment performed by Henry Cavendish more than two centuries ago, the precision determination of the gravitational constant G remains a challenging endeavor. It has been measured about a dozen times over the last 50 years, but the results have varied much more than what would be expected from random and systematic errors. Likely, this is due to the fact that, so far, all the past experiments have relied on macroscopic classical instruments, which could all be governed by uncontrolled mechanical influences. On the other hand, a recent controversial study about correlations between the measured values of G and the variations of the length of day seems to suggest that some other not well-understood effects could be present.
The main aim of MEGANTE is to realize independent precision measurements of the Newtonian gravitational constant G using atom optics techniques at the state-of-art. The target relative accuracy is 10 ppm or below, striving to approach the ppm level, thus surpassing the state-of-art measurements based on torsion balance and simple pendulum. In addition, due to the different physical regime these determinations will be realized, high precision tests of gravity will be performed, in particular:
1. Verification of the Newton’s law of gravity at short distance (~10 cm).
2. Precision test of the gravitational red shift.
3. Search for dark energy signature due to Chameleon scalar fields.