Measuring the Foaminess of Space-Time with Gravity-Wave Interferometers

Abstract

By analyzing a gedanken experiment designed to measure the distance between two spatially separated points, we find that this distance cannot be measured with uncertainty less than $(ll_P^2)^{1/3}$, considerably larger than the Planck scale $l_P$ (or the string scale in string theories), the conventional-wisdom uncertainty in distance measurements. This limitation to space-time measurements is interpreted as resulting from quantum fluctuations of space-time itself. Thus, at very short distance scales, space-time is "foamy." This intrinsic foaminess of space-time provides another source of noise in the interferometers. The LIGO/VIRGO and LISA generations of gravity-wave interferometers are expected to reach displacement noise levels low enough to test our proposed degree of foaminess in the structure of space-time.