Observational constraints on light cosmic strings from photometry and pulsar timing

Abstract

We constrain the cosmological density of cosmic string loops using two observational signatures -- gravitational microlensing and the Kaiser-Stebbins effect. Photometry from RXTE and CoRoT space missions and pulsar timing from Parkes Pulsar Timing Array, Arecibo and Green Bank radio telescopes allow us to probe cosmic strings in a wide range of tensions Gμ/c2=10-1610-10. We find that pulsar timing data provide the most stringent constraints on the abundance of light strings at the level s 10-3. Future observational facilities such as the Square Kilometer Array will allow one to improve these constraints by orders of magnitude.