John S. Lowengrub

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2011

8 Knut Erik Teigen, Peng Song, John S. Lowengrub, Axel Voigt: A diffuse-interface method for two-phase flows with soluble surfactants. J. Comput. Physics 230(2): 375-393 (2011)

7 Shingyu Leung, John S. Lowengrub, Hongkai Zhao: A grid based particle method for solving partial differential equations on evolving surfaces and modeling high order geometrical motion. J. Comput. Physics 230(7): 2540-2561 (2011)

6 S. M. Wise, John S. Lowengrub, V. Cristini: An adaptive multigrid algorithm for simulating solid tumor growth using mixture models. Mathematical and Computer Modelling 53(1-2): 1-20 (2011)

2010

5 Jin Sun Sohn, Yu-Hau Tseng, Shuwang Li, Axel Voigt, John S. Lowengrub: Dynamics of multicomponent vesicles in a viscous fluid. J. Comput. Physics 229(1): 119-144 (2010)

2009

4 Z. Hu, S. M. Wise, C. Wang, John S. Lowengrub: Stable and efficient finite-difference nonlinear-multigrid schemes for the phase field crystal equation. J. Comput. Physics 228(15): 5323-5339 (2009)

3 S. M. Wise, C. Wang, John S. Lowengrub: An Energy-Stable and Convergent Finite-Difference Scheme for the Phase Field Crystal Equation. SIAM J. Numerical Analysis 47(3): 2269-2288 (2009)

2008

2 Paul Macklin, John S. Lowengrub: A New Ghost Cell/Level Set Method for Moving Boundary Problems: Application to Tumor Growth. J. Sci. Comput. 35(2-3): 266-299 (2008)

1999

1 Russel E. Caflisch, Thomas Y. Hou, John S. Lowengrub: Almost optimal convergence of the point vortex method for vortex sheets using numerical filtering. Math. Comput. 68(228): 1465-1496 (1999)

	2011
8		Knut Erik Teigen, Peng Song, John S. Lowengrub, Axel Voigt: A diffuse-interface method for two-phase flows with soluble surfactants. J. Comput. Physics 230(2): 375-393 (2011)
7		Shingyu Leung, John S. Lowengrub, Hongkai Zhao: A grid based particle method for solving partial differential equations on evolving surfaces and modeling high order geometrical motion. J. Comput. Physics 230(7): 2540-2561 (2011)
6		S. M. Wise, John S. Lowengrub, V. Cristini: An adaptive multigrid algorithm for simulating solid tumor growth using mixture models. Mathematical and Computer Modelling 53(1-2): 1-20 (2011)
	2010
5		Jin Sun Sohn, Yu-Hau Tseng, Shuwang Li, Axel Voigt, John S. Lowengrub: Dynamics of multicomponent vesicles in a viscous fluid. J. Comput. Physics 229(1): 119-144 (2010)
	2009
4		Z. Hu, S. M. Wise, C. Wang, John S. Lowengrub: Stable and efficient finite-difference nonlinear-multigrid schemes for the phase field crystal equation. J. Comput. Physics 228(15): 5323-5339 (2009)
3		S. M. Wise, C. Wang, John S. Lowengrub: An Energy-Stable and Convergent Finite-Difference Scheme for the Phase Field Crystal Equation. SIAM J. Numerical Analysis 47(3): 2269-2288 (2009)
	2008
2		Paul Macklin, John S. Lowengrub: A New Ghost Cell/Level Set Method for Moving Boundary Problems: Application to Tumor Growth. J. Sci. Comput. 35(2-3): 266-299 (2008)
	1999
1		Russel E. Caflisch, Thomas Y. Hou, John S. Lowengrub: Almost optimal convergence of the point vortex method for vortex sheets using numerical filtering. Math. Comput. 68(228): 1465-1496 (1999)

Coauthor Index

1 Russel E. Caflisch [1]

2 V. Cristini [6]

3 Thomas Y. Hou [1]

4 Z. Hu [4]

5 Shingyu Leung [7]

6 Shuwang Li [5]

7 Paul Macklin [2]

8 Jin Sun Sohn [5]

9 Peng Song [8]

10 Knut Erik Teigen [8]

11 Yu-Hau Tseng [5]

12 Axel Voigt [5] [8]

13 C. Wang [3] [4]

14 S. M. Wise [3] [4] [6]

15 Hongkai Zhao (Hong-Kai Zhao) [7]

Colors in the list of coauthors

Last update Sun Jun 3 16:06:10 2012 CET by the DBLP Team —

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1	Russel E. Caflisch	[1]
2	V. Cristini	[6]
3	Thomas Y. Hou	[1]
4	Z. Hu	[4]
5	Shingyu Leung	[7]
6	Shuwang Li	[5]
7	Paul Macklin	[2]
8	Jin Sun Sohn	[5]
9	Peng Song	[8]
10	Knut Erik Teigen	[8]
11	Yu-Hau Tseng	[5]
12	Axel Voigt	[5] [8]
13	C. Wang	[3] [4]
14	S. M. Wise	[3] [4] [6]
15	Hongkai Zhao (Hong-Kai Zhao)	[7]