Fundamental residual amplitude modulation in electro-optic modulators

Abstract

The residual amplitude modulation (RAM) is the undesired, non-zero amplitude modulation that usually occurs when a phase modulation based on the electro-optic effect is imprinted on a laser beam. In this work, we show that electro-optic modulators (EOMs) that are used to generate the sidebands on the laser beam also generate a RAM in the optical setup. This result contradicts standard textbooks, which assume the amplitude remains unchanged in the process and should be considered as a fundamental RAM (RAMF) for these devices. We present a classical model for the propagation of an infrared laser with frequency ω0 in a wedge-shaped crystal and an EOM with an RF modulating signal of frequency . Since ω0, we solve Maxwell's equations in a time-varying media via a WKB approximation and we write the electromagnetic fields in terms of quasi-plane waves. From the emerging fields of the setup, we compute the associated RAMF and show that it depends on the phase-modulation depth m and the quotient (ω0). The RAMF values obtained for the EOMs used in gravitational wave detectors are presented. Finally, the cancellation of RAMF is analyzed.