Simulating the Eccentricity Evolution of Accreting Equal-Mass Binaries: Numerical Sensitivity to the Computational Domain Size and Grid Resolution

Author

Zhongtian HuFollow

Date of Award

8-2023

Document Type

Thesis

Degree Name

Master of Science (MS)

Department

Physics and Astronomy

Committee Chair/Advisor

Jonathan Zrake, PhD

Committee Member

Marco Ajello, PhD

Committee Member

Dieter Hartmann, PhD

Abstract

With high resolution hydrodynamics simulations, we show that the optimal values of domain radius and grid resolution for the software Sailfish when simulating time-based eccentricity evolution of equal mass, non-circular accreting binaries in a circumbinary disk to be $r_{\rm out} \leq 15a$ and $\delta x / a \le 0.01 $. These values provide a useful guideline for optimizing the performance of simulation runs while maintaining scientific accuracy. Each artificial parameter is probed with 15 runs of 2000 orbits each.

Recommended Citation

Hu, Zhongtian, "Simulating the Eccentricity Evolution of Accreting Equal-Mass Binaries: Numerical Sensitivity to the Computational Domain Size and Grid Resolution" (2023). All Theses. 4094.
https://open.clemson.edu/all_theses/4094