1. I. V. Popov and I. V. Fryazinov, “Grid Method for Solving the Gas Dynamics Equations by Introducing the Artificial Viscosity,” in Grid Methods for Boundary Problems and Applications. Proc. 7th All-Russian Seminar (Sept. 21–24 2007, Kazan, Russia) (Izd-vo kazanskogo gos. univ., Kazan, 2007), pp. 223–230 [in Russian].

2. I. V. Popov and I. V. Fryazinov, “Finite-Difference Method for Solving the Gas Dynamics Equations by Introducing the Artificial Adaptive Viscosity,” Mat. Model. 2, No. 8, 48–60 (2008).

3. I. V. Popov and I. V. Fryazinov, “Artificial Adaptive Viscosity for Multidimensional Gas Dynamics in Euler Variables and Cartesian Coordinates,” Mat. Model. 22, No. 1, 32–45 (2010).

4. R. Liska and B. Wendroff, “Comparison of Several Difference Schemes on 1D and 2D Test Problems for the Euler Equations,” (Nov. 22 2001), pp. 1–57, Available from http://www.math.ntnu.no/conservation/

5. V. F. Vasilevskii, K. V. Vyaznikov, V. F. Tishkin, and A. P. Favorskii, “Quasi-Monotonous Difference Schemes of Higher Order of Accuracy for Adaptive Grids with Irregular Structure,” Preprint No. 124 IPM im. M. V. Keldysha AN USSR (Keldysh Institute of Applied Mathematics, Moscow, 1990).