Distant Companions and Planets around Millisecond Pulsars
Abstract
We present a general method for determining the masses and orbital parameters of binary millisecond pulsars with long orbital periods (Porb >> 1 yr), using timing data in the form of pulse frequency derivatives. We apply our method to analyze the properties of the second companion in the PSR B1620-26 triple system. We use the latest timing data for this system to constrain the mass and orbital parameters of the second companion. We find that all possible solutions have a mass m2 in the range 2.4 10-4 Msun <= m2 sin i2 <= 1.2 10-2 Msun, i.e., almost certainly excluding a second companion of stellar mass and suggesting instead that the system contains a planet or a brown dwarf. Using Monte-Carlo realizations of the triple configuration in three dimensions we find the most probable value of m2 to be 0.010(5) Msun, corresponding to a distance of 38(6) AU from the center of mass of the inner binary (the errors indicate 80% confidence intervals). We also apply our method to analyze the planetary system around PSR B1257+12, where a distant, giant planet may be present in addition to the three well-established Earth-mass planets. We find that the simplest interpretation of the frequency derivatives implies the presence of a fourth planet with a mass of ~100 Mearth in a circular orbit of radius ~40 AU.
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