Abstract
Trojan asteroids are found in the equilateral triangle Lagrange points of the Sun-Jupiter system in a great number, although they also exist less prolifically in other parts of the solar system. Despite up to planetary mass Trojans being predicted in extrasolar systems (i.e., exotrojans), they remain unconfirmed, although strong candidate evidence has emerged recently. For the first time, we extend the search for exotrojans to radio pulsars with low-mass (similar to 0.01 M circle dot) companions using accurately measured pulse times of arrival. With techniques developed for detecting the reflex motion of a star due to a librating Trojan, we place similar to 1 M circle plus upper mass constraints on potential exotrojans around eight pulsars observed in the NANOGrav 15 yr dataset. We find weak evidence consistent with similar to 2-4 MJ exotrojans in the PSR J0023+0923 and PSR J1705-1903 binary systems, although the signals likely have a different, unknown source. We also place a libration-independent upper mass constraint of similar to 8 MJ on exotrojans in the PSR J1641+8049 system by looking for an inconsistency between the times of superior conjunction as measured by optical light curves and those predicted by radio timing. These results offer initial observational constraints on the existence of exotrojans around pulsars, while their possible formation mechanisms remain unexplored.