Studying a Technical scheme for Accurate Measurement of Gravity Waves Momentum

TL;DR

This paper proposes a theoretical scheme to measure gravity wave momentum, aiming to improve detector accuracy where position-based methods have failed due to interaction issues.

Contribution

It introduces a novel theoretical approach for momentum measurement in gravity wave detection, addressing limitations of existing position-based methods.

Findings

Proposes a new theoretical scheme for momentum measurement

Addresses limitations of position-based gravity wave detectors

Lays groundwork for future practical implementations

Abstract

In spite of all the attempts conducted to improve the accuracy of the gravity wave detectors in recent years, no method has been successful to measure these waves up to now. Most of these detectors and laser interferometers work based on the position measurement, because the use of such kind of measurement leads to decreasing the accuracy of measurement, since it contributes to main problems such as requiring strong interaction among different components of the system. Maybe the main cause of failing is applying this kind of measurement. A method in improving the accuracy of these detectors and decreasing such problems is applying the momentum measurement. At present, no practical way to measure momentum, in this paper, a theoretical scheme is presented to measure momentum.