A theoretical investigation of magnetic susceptibility measurement of diamagnetic liquids using a Michelson interferometer

Abstract

In this paper, we investigate the potential of using a Michelson interferometer to measure the magnetic susceptibility of liquids. The theoretical basis for this measurement technique is presented, including the relevant equations and models used to analyze the data. The proposed method involves using a ring magnet to deform the liquid and passing a laser beam through the liquid to measure the resulting interference pattern using the interferometer. The deformation of the liquid caused by the known magnetic field of the ring magnet can be used to calculate the magnetic susceptibility of the liquid. The feasibility and potential advantages of this method are discussed, including the possibility of high-precision measurements and the applicability of the technique to various fields.