High-frequency continuous gravitational waves searched in LIGO O3 public data with Einstein@Home

Abstract

We search for nearly-monochromatic gravitational wave signals with frequencies 800.0~Hz ≤ f ≤ 1686.0~Hz and spin-down -2.7×10-9~Hz\,s-1 ≤ f ≤ 0.2× 10-9~Hz\,s-1. We use LIGO O3 public data from the Hanford and Livingston detectors and deploy this search on the Einstein@Home volunteer-computing project. This is the most sensitive search carried out to date in this parameter space. Our results are consistent with a non-detection. We set upper limits on the gravitational wave amplitude h0 and translate these to upper limits on neutron star ellipticity and on r-mode amplitude. The most stringent upper limits are at 800~Hz with h0 = 1.32×10-25, at the 90\% confidence level. Searching in the high frequency bands allows us to probe astrophysically interesting ellipticities with our results excluding isolated neutron stars rotating faster than 2.5~ms with ellipticities ε ≥ 1.96 × 10-8[d100~pc] within a distance d from Earth. Our results also exclude r-mode amplitudes α ≥ 7 × 10-7[d100~pc] for neutron stars stars spinning faster than 400 Hz.