Complete Publication List
1.
“Ginzburg-Landau Theory of Crystalline Anisotropy for
bcc-Liquid Interfaces”, K.-A. Wu, A. Karma, J. J. Hoyt, and M. Asta, Phys. Rev. E
73, 094101 (2006).
2.
“Crystal-melt Interfacial Free Energies
in hcp Metals: A Molecular Dynamics Study of Mg”, D. Y. Sun, M. I. Mendelev, C. A. Becker, K. Kudin,
T. Haxhimali, M. Asta, J. J. Hoyt, A. Karma, and D. J. Srolovitz , Phys. Rev. B 73, 024116 (2006).
3.
“From
pulsus to pulseless: the
saga of cardiac alternans”, J. N. Weiss, A. Karma, Y.
Shiferaw, P. S. Chen, A. Garfinkel,
Z. Qu, Circ.
Res. 98, 1244-1253 (2006).
4.
“Turing
Instability Mediated by Voltage and Calcium Diffusion in Paced Cardiac Cells,”
Y. Shiferaw and A. Karma, Proc. Nat. Acad. Sci. U.S.A. 103, 5670-5675 (2006).
5.
“Control
of Electrical Alternans in Canine Cardiac Purkinje
Fibers”, D. J. Christini, M. L. Riccio,
C. A. Culianu, J. J. Fox, A. Karma, and R. F. Gilmour
Jr., Phys. Rev. Lett.
96, 104101 (2006).
6.
“Orientation Selection in Dendritic
Evolution”, T. Haxhimali, A. Karma, F. Gonzales, and
M. Rappaz, Nature
Materials 5, 660-664 (2006).
7.
Spheroidal
Particle Stability in Semi-Solid Processing”, R. A. Martinez, A. Karma, and M.
C. Flemings, Metall. Mater. Trans. 37A, 2807-2815 (2006).
8.
“Spatially
Discordant Alternans in Cardiac Tissue: Role of
Calcium Cycling”, D. Sato, Y. Shiferaw, A. Garfinkel, J. N. Weiss, Z. Qu,
and A. Karma, Circ. Res. 99, 520-527 (2006).
9.
“Nonlinear
Dynamics of Paced Cardiac Cells”, Y. Shiferaw, A. Garfinkel, Z. Qu, and A. Karma,
J. N. Weiss, Ann. N.Y. Acad. Sci. 1080, 376-394 (2006).
10. “Interface
Mobility from Interface Random Walk”, Z. T. Trautt,
M. Upmanyu, and A. Karma, Science 314,
632-635 (2006).
11. “Coupled Dynamics of
Voltage and Calcium in Paced Cardiac Cells”,
Y. Shiferaw, D. Sato, and A. Karma, Phys. Rev. E 71, 021903 (2005).
12. “Low Temperature
Dynamics of Kinks on Ising Interfaces”, A. Karma and
A.
13. “Modeling Wave
Propagation in Cardiac Tissue using the Phase-Field Method”, F. Fenton, F. M.
Cherry, A. Karma, and W.-J. Rappel, CHAOS 15,
013502 (2005).
14. “Phase
Field Modeling”, A. Karma, in Handbook of
Materials Modeling. Volume I: Methods and Models, edited by S. Yip,
Springer,
15. “Crack
Path Prediction in Anisotropic Brittle Materials”, V. Hakim and A. Karma, Phys. Rev. Lett.
95, 235501 (2005).
16. “The
Dynamics of Cardiac Fibrillation”, J. N. Weiss, Z. L. Qu,
P. S. Chen, S. F. Lin, H. S. Karagueuzian, H.
Hayashi, A. Garfinkel, and A. Karma, Circulation 112,
1232-1240 (2005).
17. “Grain shape, grain
boundary mobility, and the Herring relation”, A. Lobkovsky,
A. Karma, M. I. Mendelev, M. Haataja,
and D. J. Srolovitz, Acta Materiala 52, 285-292 (2004).
18. “Phase-Field Modeling of
Binary Alloy Solidification with Coupled Heat and Solute Diffusion”, J. C.
Ramirez, C. Beckermann, A. Karma, and H.-J. Diepers, Phys. Rev.
E 69, 051607 (2004).
19. “Unsteady
Crack Motion and Branching in a Phase-Field Model of Brittle Fracture”, A.
Karma and A. Lobkovsky, Phys. Rev. Lett. 92, 245510 (2004).
20. “New Insights into the Morphological Stability of Eutectic and Peritectic Coupled Growth”, A. Karma and
M. Plapp, JOM
56 (4), 28-32
(2004).
21. “From Atoms to Dendrites”, J. J. Hoyt, A. Karma,
M. Asta, and D. Y. Sun”, JOM
56 (4), 49-54 (2004).
22. “Peritectic Coupled Growth”, S. Dobler, T.
S. Lo, M. Plapp, A. Karma, and
23. “Overstability of Lamellar Eutectic Growth below the Minimum
Undercooling Spacing,” S. Akamatsu,
M. Plapp, G. Faivre, and A.
Karma, Metall. Mater. Trans. 35A, 1815-1828 (2004).
24. “Crystal-Melt Interfaces
and Solidification Morphologies in Metal and Alloys”, J. J. Hoyt, M. Asta, T. Haxhimali, A. Karma, R.
E. Napolitano, R. Trivedi, B. B. Laird, and J. R.
Morris, MRS Bulletin 29 (12), 935-939 (2004).
25. “Quantitative
Phase-Field Model of Alloy Solidification”, B. Echebarria,
R. Folch, A. Karma, and M. Plapp,
Phys. Rev. E 70, 061604 (2004).
26. “Two-phase
microstructure selection in peritectic
solidification: from island banding to coupled growth, ” T. S. Lo, S. Dobler, M. Plapp, A. Karma, and
W. Kurz, Acta Materiala 51,
599-611 (2003).
27. “Phase-Field
Approach for Faceted Solidification,” J.-M. Debierre,
A. Karma, F. Celestini, and R. Guérin,
Phys. Rev. E 68, 041604 (2003).
28. “Atomistic
and Continuum Modeling of Dendrite Solidification,” J. J. Hoyt, M. Asta, and A. Karma, Mat.
Sci.
29. “Model of intracellular
calcium cycling in ventricular myocytes”, Y. Shiferaw, M. A. Watanabe, A. Garfinkel,
J. N. Weiss, and A. Karma, Biophys. J. 85, 3666-86 (2003).
30. “Instability
and Spatiotemporal Dynamics of Alternans in Paced Cardiac
Tissue”, B. Echebarria and A. Karma, Phys. Rev. Lett.
88, 208101 (2002).
31. “Spatiotemporal
Control of Cardiac Alternans”, B. Echebarria
and A. Karma, CHAOS 12, 923-930 (2002).
32. “Phase-Field
Simulations of Solidification”, W. J. Boettinger, J.
A. Warren, C. Beckermann, and A. Karma, Ann. Rev. Mater. Res. 32, 163-194 (2002).
33. “Linking
Phase-Field and Atomistic Simulations to Model Dendritic Solidifcation
in Highly Undercooled Melts”, J. Bragard,
A. Karma, Y. H. Lee, and M. Plapp, Interface Science 10, 121-136 (2002).
34. “Atomistic
Simulation Methods for Computing the Kinetic Coefficient in Solid-Liquid
Systems”, J. J. Hoyt, M. Asta, and A. Karma, Interface Science 10, 181-189 (2002).
35. “Calculation
of alloy solid-liquid interfacial free energies from atomic-scale simulations”,
M. Asta, J. J. Hoyt, and A. Karma, Phys. Rev. B 66, 100101(R) (2002).
36. “Eutectic
Colony Formation: A Phase-Field Study”, M. Plapp and
A. Karma, Phys. Rev. E 66, 061608 (2002).
37. “Pattern
stability and trijunction motion in eutectic solidification, ” S. Akamatsu, M. Plapp, G. Faivre, and A. Karma, Phys. Rev. E 66, 030501 (2002).
38. “Phase-field
modeling of microstructural pattern formation during
directional solidification of peritectic alloys
without morphological instability”, T.-S. Lo, A. Karma, and M. Plapp, Phys. Rev.
E 63, 031504 (2001).
39. “Method
for Computing the Anisotropy of the Solid-Liquid Interfacial Free Energy”, J.
J. Hoyt, M. Asta, and A. Karma, Phys. Rev. Lett. 86, 5530-5533 (2001).
40. “Phase-Field
Model of Mode-III Dynamic Fracture”, A. Karma, H. Levine, and D. Kessler, Phys. Rev. Lett. 87, 045501 (2001).
41. “Phase-Field
Formulation for Quantitative Modeling of Alloy Solidification”, A. Karma, Phys. Rev. Lett.
87, 115701 (2001).
42. “Mechanisms
for Discordant Alternans", M. A. Watanabe, F. H.
Fenton, S. J. Evans, H. M. Hastings, A. Karma, J. Cardiovasc. Electrophysiol.
12, 196-206 (2001).
43. “Lectures
on Dendritic Growth”, in Branching in
Nature, A. Karma, Les Houches, Vol. 13, edited by
V. Fleury, J. F. Gouyet and
M. Léonetti (EDP Scinces/Springer-Verlag,
2001), Chapter XI, p. 365-401.
44. “Evolution
of Nanoporosity in Dealloying”,
J. Erlebacher, M. J. Aziz,
A. Karma, N. Dimitrov, and K. Sieradzki,
Nature 410, 450 (2001).
45. “Phase-Field
Simulations of Dendritic Crystal Growth in a Forced Flow”, X. Tong, C. Beckermann, A. Karma, and Q. Li, Phys. Rev. E 63,
061601/16 pages (2001).
46. “Phase
Field Methods”, A. Karma, Encyclopedia of Materials: Science and Technology,
edited by K. H. J. Buschow, R. W. Cahn,
M. C. Flemings, B. Ilschner, E. J. Kramer, S. Mahajan, Volume 7,
Elsevier, Oxford, pp. 6873-86 (2001).
47. “Velocity
and shape selection of dendritic crystals in a forced flow”, X. Tong, C. Beckermann, and A. Karma, Phys. Rev. E 61, R49-R52
(2000).
48. “Three-dimensional
dendrite-tip morphology at low undercooling”, A.
Karma, Y. H. Lee, and M. Plapp, Phys. Rev. E 61,
3996-4006 (2000).
49. “Multiscale Random-Walk Algorithm for Simulating Interfacial
Pattern Formation”, M. Plapp and A. Karma, Phys. Rev. Lett.
84, 1740-1743 (2000).
50. “Solidification
Microstructures: Recent Developments, Future Directions”, W.J. Boettinger, S.R. Coriell, A.L.
Greer, A. Karma, W. Kurz, M. Rappaz,
and R. Trivedi, Acta Mater. 48, 43-70
(2000).
51. “New
Paradigm for Drug Therapies of Cardiac Fibrillation”, A. Karma, Proc. Natl. Acad. Sci.
U. S. A. 97, 5687-5689 (2000).
52. “Hybrid
Finite Difference Diffusion Monte Carlo Algorithm for Simulating Dendritic
Solidification”, M. Plapp and A. Karma, J. Comp. Phys. 165, 592-619 (2000).
53. “Modeling
Melt Convection in Phase-Field Simulations of Solidification”, C. Beckermann, H.-J. Diepers,
54. “Spatiotemporal
Control of Wave Instabilities in Cardiac Tissue”, W.-J. Rappel, F. Fenton, and
A. Karma, Phys. Rev. Lett. 83,
456-459 (1999).
55. “Phase-Field
Model of Dendritic Sidebranching with Thermal Noise”,
A. Karma and W.-J. Rappel, Phys. Rev.
E 60, 3614-3625 (1999).
56. “Structure
of the Resonance Attractor for Spiral Waves in Excitable Media”, A. Karma and V.
S. Zykov, Phys.
Rev. Lett. 83,
2453-245 (1999).
57. “Theory
of spiral wave dynamics in weakly excitable media: asymptotic reduction to a kinematic model and applications”, V. Hakim and A. Karma, Phys. Rev. E 60, 5073-5105 (1999).
58. “Eutectic
colony formation: A stability analysis”, M. Plapp and
A. Karma, Phys. Rev. E 60, 6865-6889 (1999).
59. “Quantitative
phase-field modeling of dendritic growth in two and three dimensions”, A. Karma
and W.-J. Rappel, Phys. Rev. E 57, 4323-4349 (1998).
60. “Model
of Banding in Diffusive and Convective Regimes during Directional
Solidification of Peritectic Systems”, A. Karma, W.
J. Rappel, B.C. Fuh, and R. Trivedi,
Metall. and Mater. Trans. A 29, 1457-1470 (1998).
61. “Whiskers
and Dendrites”, R. Trivedi and A. Karma, Encyclopedia of Applied Physics 23, 441-459 (1998).
62. “Selection
of Doublet Cellular Patterns in Directional Solidification through Spatially
Periodic Perturbations”, W. Losert, D.A. Stillman, H.Z. Cummins, P. Kopczynski,
W.-J. Rappel, and A. Karma, Phys. Rev.
E 58, 7492-7506 (1998).
63. “Vortex
Dynamics in Three-Dimensional Continuous Myocardium with Fiber Rotation:
Filament Instability and Fibrillation”, F. Fenton and A. Karma, CHAOS 8 (1), 20-47 (1998).
64. “Fiber-Rotation-Induced
Vortex Turbulence in Thick Myocardium”, F. Fenton and A. Karma, Phys. Rev. Lett.
81, 481-484 (1998).
65. “Spiral
Surface Growth Without Desorption”, A. Karma and M. Plapp, Phys. Rev. Lett. 81,
4444-4447 (1998).
66. “Model
of Grain Refinement in Solidification of Undercooled
Melts”, A. Karma, Int. J. Non-Equilibrium Processing 11, 201 233 (1998).
67. “Cellular
multiplets in directional solidification”, P. Kopczynski, W.-J. Rappel, and A. Karma, Phys. Rev. E 55, R1282-R1285 (1997).
68. “Phase-field
modeling of three-dimensional dendritic growth: Is microscopic solvability
theory correct?”, A. Karma and W.-J. Rappel, J. Cryst. Growth
174, 54 (1997).
69. “Spiral
Wave Meander in Excitable Media: The Large Core Limit”, V. Hakim and A. Karma, Phys. Rev. Lett.
79, 665-668 (1997).
70. “Morphological
Instabilities of Lamellar Eutectics”, A. Karma and A. Sarkissian,
Metall. Mater. Trans. A 27, 635 (1996).
71. “Spiralling to Destruction at the Edge of Chaos”, A. Karma, Nature 379, 118 (1996).
72. “Phase-field
method for computationally efficient modeling of solidification with arbitrary
interface kinetics”, A. Karma and W. -J. Rappel, Phys. Rev. E 53,
R3017-R3020 (1996).
73. “Noise-Induced
Coherence in Neural Networks”, W.-J. Rappel and A. Karma, Phys. Rev. Lett. 77, 3256-3259 (1996).
74. “Critical
Role of Crystalline Anisotropy in the Stability of Cellular Array Structures in
Directional Solidification”, P. Kopczynski, W.-J.
Rappel, and A. Karma, Phys. Rev. Lett. 77,
3387-3390 (1996).
75. “Numerical
Simulation of Three-Dimensional Dendritic Growth”, A. Karma and W.-J. Rappel, Phys. Rev. Lett. 77 , 4050-4053
(1996).
76. “Comment
on Spatial Subharmonics, Irrational Patterns, and
Disorder in Eutectic Growth”, A. Karma and W.-J. Rappel, Phys. Rev. Lett. 75, 2444 (1995).
77. “Theory
of pulse instabilities in electrophysiological models of excitable tissues”, A.
Karma, H. Levine, and X. Zou, Physica D 73, 113 (1994).
78. “Step
motions on high-temperature vicinal surfaces”, A Pimpinelli,
I. Elkinani, A. Karma, C. Misbah,
and J. Villain, J. Phys. Condens. Matter 6,
2661 (1994).
79. “Phase-field
model of eutectic growth”, A. Karma, Phys.
Rev. E 49, 2245 (1994).
80. “On
the formation of the banded structure in rapid solidification”, A. Sarkissian and A. Karma, Mater. Sci. and
81. “Physical
Mechanism of Grain Refinement in Solidification of Undercooled
Melts”, M. Schwarz, A. Karma, K. Eckler, and D. Herlach, Phys. Rev. Lett. 73,
1380 (1994).
82. “Electrical
Alternans and spiral wave breakup in cardiac tissue”,
A. Karma, CHAOS 4(3), 461 (1994).
83. “Langevin Formalism
for Solidification”, A. Karma, Phys. Rev.
Lett. 70,
3439 (1993).
84. “Fluctuations
in Solidification”, A. Karma, Phys. Rev.
E 48, 3441 (1993).
85. “Spiral
Breakup in Model Equations of Action Potential Propagation in Cardiac Tissue”, A.
Karma, Phys. Rev. Lett.
71, 1103 (1993).
86. “Competition
between Noise and Determinism in Step Flow Growth”, A. Karma and C. Misbah, Phys. Rev. Lett. 71,
3810 (1993).
87. “Interface
dynamics and banding in rapid solidification”, A. Karma and A. Sarkissian, Phys.
Rev. E 47, 513 (1993).
88. “Scaling Regime of Spiral Wave Propa