English

TTVFast: An efficient and accurate code for transit timing inversion problems

Earth and Planetary Astrophysics 2014-05-20 v1

Abstract

Transit timing variations (TTVs) have proven to be a powerful technique for confirming Kepler planet candidates, for detecting non-transiting planets, and for constraining the masses and orbital elements of multi-planet systems. These TTV applications often require the numerical integration of orbits for computation of transit times (as well as impact parameters and durations); frequently tens of millions to billions of simulations are required when running statistical analyses of the planetary system properties. We have created a fast code for transit timing computation, TTVFast, which uses a symplectic integrator with a Keplerian interpolator for the calculation of transit times (Nesvorny et al. 2013). The speed comes at the expense of accuracy in the calculated times, but the accuracy lost is largely unnecessary, as transit times do not need to be calculated to accuracies significantly smaller than the measurement uncertainties on the times. The time step can be tuned to give sufficient precision for any particular system. We find a speed-up of at least an order of magnitude relative to dynamical integrations with high precision using a Bulirsch-Stoer integrator.

Keywords

Cite

@article{arxiv.1403.1895,
  title  = {TTVFast: An efficient and accurate code for transit timing inversion problems},
  author = {Katherine M. Deck and Eric Agol and Matthew J. Holman and David Nesvorny},
  journal= {arXiv preprint arXiv:1403.1895},
  year   = {2014}
}

Comments

Submitted to ApJ. Our code is available in both C and Fortran at: http://github.com/kdeck/TTVFast . If you download this version, please check back after the referee process for a possibly updated version

R2 v1 2026-06-22T03:22:39.368Z