Stochastic theta methods for free stochastic differential equations

We introduce free probability analogues of the stochastic theta methods for free stochastic differential equations, which generalize the free Euler-Maruyama method introduced by Schl\"{u}chtermann and Wibmer [27]. Under some mild conditions, we prove the strong convergence and exponential stability in mean square of the numerical solution. The free stochastic theta method with $\theta=1$ can inherit the exponential stability of original equations for any given step size. Our method can offer better stability and efficiency than the free Euler-Maruyama method. Moreover, numerical results are reported to confirm these theoretical findings.