Learning from the Frequency Content of Continuous Gravitational Wave Signals

TL;DR

This paper discusses how analyzing the frequency content of continuous gravitational wave signals from spinning neutron stars can help identify the underlying emission mechanisms and interpret potential detections.

Contribution

It introduces a method to use frequency analysis of gravitational waves to constrain neutron star emission mechanisms, aiding future detections.

Findings

Frequency content relates to emission mechanisms

Method helps interpret gravitational wave detections

Contributes to understanding neutron star physics

Abstract

Spinning neutron stars can emit long-lived gravitational waves. There are several mechanisms that can produce such continuous wave emission. These mechanisms relate to the strains in the elastic crust, the star's magnetic field, superfluidity of the neutron fluid, and bulk oscillations of the entire star. In this chapter we describe how the frequency content of the gravitational wave signal, and its relation to any electromagnetically observed spin frequency, can be used to constrain the mechanism producing the gravitational waves. These ideas will be of use in the event of the first detections of such signals, and help convert a detection into useful physical insight.