1. W. Bao, W. Jiang, D. J. Srolovitz, Y. Wang: Stable equilibria of anisotropic particles on substrates: A generalized Winterbottom construction. SIAM J. Appl. Math. 77 (2017),2093–2118. zbl MR doi
2. M. Bertagnolli, M. Marchese, G. Jacucci: Modeling of particles impacting on a rigid substrate under plasma spraying conditions. J. Thermal Spray Technology 4 (1995), 41–49.
3. E. Bonnetier, E. Bretin, A. Chambolle: Consistency result for a non monotone scheme for anisotropic mean curvature flow. Interface Free Bound. 14 (2012), 1–35.
4. P. Campinho, M. Behrndt, J. Ranft, T. Risler, N. Minc, C.-P. Heisenberg: Tension- oriented cell divisions limit anisotropic tissue tension in epithelial spreading during zebrafish epiboly. Nature Cell Biology 15 (2013), 1405–1414.
5. M. Elsey, S. Esedo¯glu: Threshold dynamics for anisotropic surface energies. Math. Com- put. 87 (2018), 1721–1756.
6. S. Esedo¯glu, M. Jacobs: Convolution kernels and stability of threshold dynamics meth- ods. SIAM J. Numer. Anal. 55 (2017), 2123–2150.
7. S. Esedo¯glu, M. Jacobs, P. Zhang: Kernels with prescribed surface tension & mobility for threshold dynamics schemes. J. Comput. Phys. 337 (2017), 62–83.
8. S. Esedo¯glu, F. Otto: Threshold dynamics for networks with arbitrary surface tensions. Commun. Pure Appl. Math. 68 (2015), 808–864.
9. J. Huang, F. Kim, A. R. Tao, S. Connor, P. Yang: Spontaneous formation of nanoparti- cle stripe patterns through dewetting. Nature Materials 4 (2005), 896–900.
10. H. Ishii, G. E. Pires, P. E. Souganidis: Threshold dynamics type approximation schemes for propagating fronts. J. Math. Soc. Japan 51 (1999), 267–308.
11. W. Jiang, W. Bao, C. V. Thompson, D. J. Srolovitz: Phase field approach for simulating solid-state dewetting problems. Acta Mater. 60 (2012), 5578–5592.
12. T. Laux, F. Otto: Convergence of the thresholding scheme for multi-phase mean-curva- ture flow. Calc. Var. Partial Differ. Equ. 55 (2016), Article ID 129, 74 pages.
13. B. Merriman, J. K. Bence, S. J. Osher: Motion of multiple junctions: A level set ap- proach. J. Comput. Phys. 112 (1994), 334–363.
14. O. Misiats, N. Kwan Yip: Convergence of space-time discrete threshold dynamics to an- isotropic motion by mean curvature. Discrete Contin. Dyn. Syst. 36 (2016), 6379–6411.
15. S. J. Ruuth, B. Merriman: Convolution-generated motion and generalized Huygens’ prin- ciples for interface motion. SIAM J. Appl. Math. 60 (2000), 868–890.
16. D. Ševčovič, S. Yazaki: Evolution of plane curves with a curvature adjusted tangential velocity. Japan J. Ind. Appl. Math. 28 (2011), 413–442.
17. C. V. Thompson: Solid-state dewetting of thin films. Annual Review Materials Research42 (2012), 399–434.
18. Y. Wang, W. Jiang, W. Bao, D. J. Srolovitz: Sharp interface model for solid-state dewet- ting problems with weakly anisotropic surface energies. Phys. Rev. B 91 (2015), Article ID 045303.
19. W. L. Winterbottom: Equilibrium shape of a small particle in contact with a foreign substrate. Acta Metallurgica 15 (1967), 303–310. doi
20. X. Xu, D. Wang, X.-P. Wang: An efficient threshold dynamics method for wetting onrough surfaces. J. Comput. Phys. 330 (2017), 510–528. zbl MR doi
21. H. Yagisita: Non-uniqueness of self-similar shrinking curves for an anisotropic curvatureflow. Calc. Var. Partial Differ. Equ. 26 (2006), 49–55. zbl MR doi
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