Litcius/Paper detail

Rare Event Sampling Improves Mercury Instability Statistics

Dorian S. Abbot, Robert J. Webber, Sam Hadden, Darryl Z. Seligman, Jonathan Weare

2021The Astrophysical Journal25 citationsDOIOpen Access PDF

Abstract

Abstract Due to the chaotic nature of planetary dynamics, there is a non-zero probability that Mercury’s orbit will become unstable in the future. Previous efforts have estimated the probability of this happening between 3 and 5 billion years in the future using a large number of direct numerical simulations with an N -body code, but were not able to obtain accurate estimates before 3 billion years in the future because Mercury instability events are too rare. In this paper we use a new rare-event sampling technique, Quantile Diffusion Monte Carlo (QDMC), to estimate that the probability of a Mercury instability event in the next 2 billion years is approximately 10 −4 in the REBOUND N -body code. We show that QDMC provides unbiased probability estimates at a computational cost of up to 100 times less than direct numerical simulation. QDMC is easy to implement and could be applied to many problems in planetary dynamics in which it is necessary to estimate the probability of a rare event.

Topics & Concepts

Rare eventsImportance samplingInstabilityEvent (particle physics)Monte Carlo methodMercury (programming language)QuantileSampling (signal processing)Statistical physicsStatisticsComputer scienceMeteorologyEconometricsMathematicsPhysicsMechanicsProgramming languageComputer visionFilter (signal processing)Quantum mechanicsScientific Research and DiscoveriesAstro and Planetary ScienceGeomagnetism and Paleomagnetism Studies