Demonstrating the potential detection of the graviton using entangled pairs at different detector sites.

In 2013, Freeman Dyson argued that upper bounds on the quantization of the graviton prohibit any individual graviton from being practically observable. While this statement is accurate for solitary gravitons, their quantum properties suggest a need to examine how multiple gravitons behave collectively. This research aims to demonstrate the potential detection of the graviton by considering entangled pairs arriving at different detector sites. This approach is particularly relevant for current detectors, as the detector sites are typically positioned at approximately one graviton wavelength apart. This permits the overlap of the state functions enhancing the observable effect of these quantum interactions.