PUBLICATION LIST
FOR MARK O. ROBBINS
151.
B. Koiller and M. O. Robbins, “Growth and morphology transitions in anisotropic
disordered media,” Phys. Rev. B82,
064202 (2010). 10.1103/PhysRevB.82.064202..
150.
S. Cheng and M. O. Robbins, “Defining Contact
at the Atomic Scale,” Tribol. Lett. 39,
329-348 (2010). Doi:10.1007/s11249-010-9682-5.
149.
J. Liu, M. Wang, S. Chen and M. O. Robbins, “Molecular Simulations of Electroosmotic Flows in Rough Nanochannels,”
J. Comput.
Phys. 229, 7834-7847 (2010). (doi:10.1016/j.jcp.2010.08.042)
148. T. Ge and M. O. Robbins, “Anisotropic
plasticity and chain orientation in polymer glasses,” J. Polymer Sci. B:
Polymer Physics 48, 1473-1482 (2010). (doi:10.1002/polb.22015).
147. R. S. Hoy and M. O. Robbins, “Strain
hardening in bidisperse polymer glasses: Separating
the roles of chain orientation and interchain
entanglement,” J. Chem. Phys. 131, 244901 (2009). (doi:10.1063/1.3276800).
146.
M. Cieplak and M. O. Robbins, “Nanoindentation of
virus capsids in a molecular model,” J. Chem. Phys.
132, 015101 (2010). (doi:10.1063/1.3276287).
145. S. Cheng, B. Luan and M. O. Robbins,
“Contact and Friction of Nano-Asperities: Effects of
Adsorbed Monolayers,” Phys. Rev. E 81, 016102 (2010).
(10.1103/PhysRevE.81.016102)
144. B. Luan and M. O.
Robbins, “Hybrid Atomistic/Continuum Study of Contact and Friction Between Rough Solids,” Tribol.
Lett.,
36, 1-16 (2009). (doi: 10.1007/s11249-009-9453-3)
143. M. O. Robbins and R. S. Hoy, “Scaling
of the Strain Hardening Modulus of Glassy Polymers with the Flow Stress,” J.
Polymer Sci. B: Polymer Physics 47,
1406-1411 (2009). (doi:
10.1002/polb.21734)
142. C. E. Maloney and M. O. Robbins,
“Long-ranged anisotropic strain correlations in sheared amorphous solids,”
Phys. Rev. Lett. 102, 225502 (2009). (10.1103/PhysRevLett.102.225502)
141. J. Liu, S. Chen, X. Nie, and M. O.
Robbins, “A Continuum-Atomistic Multi-Timescale Algorithm for Micro/Nano Flows,” Comm. Comp. Phys. 4, 1279-1291 (2008).
140. C. Campañá,
M. H. Müser, and M. O. Robbins, “Elastic contact between self-affine surfaces:
Comparison of numerical stress and contact correlation functions with analytic
predictions,” J. Phys.: Condens. Matter
20, 354013 (2008). (doi:10.1088/0953-8984/20/35/354013)
139. C. E.
Maloney and M. O. Robbins, "Evolution of displacements and strains in
sheared amorphous solids," J. Phys.: Condens. Matter 20, 244128
(2008). (doi:10.1088/0953-8984/20/24/244128)
138. R. S. Hoy and M. O.
Robbins, "Strain Hardening of Polymer Glasses: Entanglements, Energetics and Plasticity,'' Phys. Rev. E 77, 031801 (2008).
137. C. E. Maloney and M. O.
Robbins, “Shear faults in a model brittle solid,’’ Chaos 17, 041105 (2007).
136. R. S. Hoy and M. O.
Robbins, “Strain Hardening in Polymer Glasses: Limitations of Network Models,”
Phys. Rev. Lett. 99, 117801 (2007).
135. J. Liu, S. Y. Chen, X.
Nie and M. O. Robbins, "A Continuum-Atomistic Simulation of Heat Transfer
in Micro- and Nano-Flows," J. Comp. Phys. 227, 279-291 (2007).
134. S. Hyun and M. O.
Robbins, “Elastic Contact Between Rough Surfaces:
Effect of Roughness at Large and Small Wavelengths,” Tribo.
Int. 40, 1413-1422
(2007).
133. C. Denniston and M. O. Robbins, "General continuum
boundary conditions for miscible binary fluids from molecular dynamics
simulations," J. Chem. Phys. 125,
214102 (2006).
132.
R. S. Hoy and M. O. Robbins, "Strain Hardening of Polymer Glasses: Effect
of Entanglement Density, Temperature and Rate," J. Polymer Sci. B: Polymer
Physics 44, 3487-3500 (2006).
131. B. Luan and M. O.
Robbins, “Contact of Single Asperities with Varying Adhesion: Comparing
Continuum Mechanics to Atomistic Simulations,” Phy. Rev. E74, 026111 (2006).
130. B. Luan, S. Hyun, J. F. Molinari, N.
Bernstein, and Mark O. Robbins, “ Multiscale modeling of two-dimensional
contacts,” Phys. Rev. E74,
046710 (2006).
129. X. Nie, M. O. Robbins
and S. Chen, “Resolving singular forces in cavity flow: Multiscale
modeling from atomic scales to millimeters,” Phys. Rev. Lett. 96, 134501 (2006).
128. R.
S. Hoy and M. O. Robbins, “Effect of Equilibration on Primitive Path Analyses
of Entangled Polymers,” Phys. Rev. E 72,
061802 (2005).
127. J. Rottler and M. O.
Robbins, “Unified description of aging and rate effects in yield of glassy
solids,” Phys. Rev. Lett. 95, 225504 (2005).
126. L. Pei, S. Hyun, J.-F.
Molinari, and M. O. Robbins, “Finite element modeling of elasto-plastic contact between rough surfaces,” J. Mech.
Phys. Sol. 53, 2385-2409 (2005).
125. B. Luan and M. O. Robbins, “The breakdown of continuum models
for mechanical contacts,” Nature 435, 929-932 (2005).
124. B. Luan, S. Hyun, M. O.
Robbins and N. Bernstein, “Multiscale Modeling of Two
Dimensional Rough Surface Contacts," in Fundamentals of Nanoindentation and Nanotribology, edited by K. J. Wahl, N. Huber, A. B.
Mann, D. F. Bahr, and Y.-T. Cheng (Materials Research Society Proceedings 841, Warrendale,
PA, 2005), R7.4 (Ribbon Award Winner).
123. J.
Rottler and M. O. Robbins, “Macroscopic friction laws and shear yielding of
glassy solids,” Comp. Phys. Comm. 169
177-182, (2005).
122. J.
Rottler and M. O. Robbins, “Craze Formation and the Fracture Energy of Glassy
Polymers,” 2004 Gallery of Nonlinear Images, Chaos 14, S5 (2004).
121.
X. Nie, S. Chen and M. O. Robbins, “Hybrid Continuum-Atomistic Simulation of
Singular Corner Flow,” Physics of Fluids 16,
3579-3591 (2004).
120. M.
Cieplak, T. X. Hoang and M. O. Robbins “Stretching of Homopolymers
and Contact Order,” Phys. Rev. E 70,
011917 (2004).
119. B.
Luan and M. O. Robbins, “Effect of inertia and elasticity on stick-slip
motion,” Phys. Rev. Lett. 93, 036105 (2004).
118. S. Hyun, L. Pei, J.-F.
Molinari and M. O. Robbins, “Finite-element analysis of
contact between elastic self-affine surfaces,” Phys. Rev. E 70, 026117 (2004) and cond-mat/0404237.
117. R. S. Hoy and M. O.
Robbins, “Fcc-bcc transition for Yukawa interactions
determined by applied strain deformation,” Phys. Rev. E 69, 056103 (2004) and cond-mat/0401045.
116. C.
Denniston and M. O. Robbins, “Mapping molecular models to continuum theories
for partially miscible fluids,” Phys. Rev. E 69, 021505 (2004).
115. J. Ringlein and M. O. Robbins, “Understanding and illustrating
the atomic origins of friction,” Am. J. Phys. 72, 884-891 (2004).
114. M. O. Robbins and
J. Rottler, “Polymer Glasses, Simulation of Crazing and Fracture,” in “Encylopedia of Materials: Science and Technology,”
(Elsevier, Amsterdam, 2004).
113. X. B. Nie, S. Y. Chen, W. N. E and M. O. Robbins, “A Continuum
and Molecular Dynamics Hybrid Method for Micro- and Nano-Fluid
Flow,” J. Fluid Mech. 500, 55-64
(2004).
112. M. Cieplak, T.-X. Hoang, and M. O. Robbins, “Thermal
Effects in Stretching of Go-like Models of Titin and
Secondary Structures,” Proteins: Struct. Funct. Bio. 56,
285 (2004).
111. M.
Cieplak, T.-X. Hoang, and M. O. Robbins, “Stretching
of Proteins in the Entropic Limit,” Phys. Rev. E 69, 011912 (2004).
110. J. Rottler and M.
O. Robbins, “Shear yielding of amorphous glassy solids: Effect of temperature and strain rate,” Phys.
Rev. E 68, 011507 (2003) and
cond-mat/0303276.
109. M. H. Müser and M. O. Robbins,
“Atomistic Computer Simulations of Friction Between
Solids,” invited chapter in ``Springer Handbook of Nanotechnology,'' Edited by
B. Bhushan, (Springer-Verlag, Berlin,
2004) pp. 717-738.
108.
J. Rottler and M. O. Robbins “Growth, microstructure, and failure of crazes in
glassy polymers,” Phys. Rev. E 68,
011801 (2003).
107.
M. Tsige, T. Soddemann, S.
B. Rempe, G. S. Grest, J. D. Kress, M. O. Robbins, S.
W. Sides, M. J. Stevens and E. Webb, III, “Interactions and Structure of Poly(dimethylsiloxane) at Silicon
Dioxide Surfaces: Electronic Structure and Molecular Dynamics Studies,” J.
Chem. Phys. 118, 5132-5142 (2003).
106.
J. Rottler and M. O. Robbins, “Molecular simulations of deformation and failure
in bonds formed by glassy polymer adhesives,” J. Adh. Sci.Tech. 17, 369-381 (2003).
105. J. Rottler and M.
O. Robbins, “Jamming under tension in polymer crazes,” Phys. Rev. Lett. 89, 195501 (2002).
104. C. Denniston and M. O. Robbins,
“Mapping molecular simulations to continuum models for binary fluids,” in
Computer Simulation Studies in Condensed Matter Physics XV, Eds. D.P. Landau,
S.P. Lewis, and H.B. Schüttler (Springer Verlag, Heidelberg,
Berlin, 2002).
103. M. H. Müser, M. Urbakh, and M. O.
Robbins, “Statistical Mechanics of Static and Low-Velocity Kinetic Friction,”
Advances in Chemical Physics, 126,
187-272 (2003).
102. J. Rottler, S. Barsky, and M. O. Robbins, “Cracks and Crazes: On
calculating the macroscopic fracture energy of glassy polymers from molecular
simulations,” Phys. Rev. Lett. 89, 148304 (2002) and cond-mat/0112006.
101.
M. Cieplak, T. X. Hoang, and M. O. Robbins, “Folding and Stretching in a
Go-like Model of Titin,” Proteins: Structure,
Function, and Genetics, 49, 114-124
(2002) and cond-mat/0112201.
100.
M. Cieplak, T. X. Hoang, and M. O. Robbins, “Thermal Folding and Mechanical
Unfolding Pathways of Protein Secondary Structures,” Proteins: Structure,
Function, and Genetics 49, 104-113
(2002) and cond-mat/0112200.
99.
S. Barsky and M. O. Robbins, “Bulk and Interfacial
Shear Thinning of Immiscible Polymers,” Phys. Rev. E 65, 021808 (2002) and cond-mat/0108405.
98. C. Denniston and M. O. Robbins,
``Molecular and continuum boundary conditions for a miscible binary fluid,''
Phys. Rev. Lett. 87,
178302 (2001) and cond-mat/0105383.
97.
J. Rottler and M. O. Robbins, “Yield conditions for deformation of amorphous
polymer glasses,” Phys. Rev. E64,
051801 (2001) and cond-mat/0104494.
96.
G. He and M. O. Robbins, “Simulations of the Static Friction
Due to Adsorbed Molecules,” Phys. Rev. B 64,
035413 (2001).
95. S. Barsky and M. O. Robbins,
“Molecular dynamics study of slip at the interface between immiscible
polymers,” Phys. Rev. E 63, 021801
(2001).
94. G. He and M. O. Robbins, “Simulations of the
kinetic friction due to adsorbed surface layers,” Tribology Letters 10, 7-14 (2001) and cond-mat/0008196.
93. A. Baljon and M. O. Robbins,
“Simulations of Crazing in Polymer Glasses: Effect of Chain Length and Surface
Tension,” Macromolecules 34,
4200-4209 (2001).
92. G. He and M. O. Robbins, “Scale
effects and the molecular origins of tribological behavior,” in “Nanotribology: Critical Assessment and Research Needs,”
Edited by S. M. Hsu and Z. C. Ying (Kluwer, Dordrecht,
2003), pp. 29-44.
91. M. H. Müser, L. Wenning, and M. O.
Robbins, “Simple Microscopic Theory of Amontons' Laws
for Static Friction,” Phys. Rev. Lett. 86,
1295-8 (2001) and cond-mat/0004494.
90.
B. Koiller and M. O. Robbins, “Morphology transitions in three-dimensional
domain growth with Gaussian random fields,” Phys. Rev. B, 62, 5771-5778 (2000) and cond-mat/004183.
89. M. O.
Robbins and M. H. Müser, “Computer Simulations of Friction, Lubrication and
Wear,” in Modern Tribology Handbook,
Edited by B. Bhushan (CRC Press, Boca Raton, 2001),
pp. 717-765 and cond-mat/0001056.
88. M. O. Robbins, “Jamming, Friction and
Unsteady Rheology,” in Jamming and Rheology: Constrained dynamics on
microscopic and macroscopic scales, Edited by A. J. Liu and S. R. Nagel (Taylor and Francis, London,
2000) and cond-mat/9912337.
87. M. H. Müser and M.
O. Robbins, “Conditions for static friction between flat, crystalline
surfaces,” Phys. Rev. B 61,
2335-2342 (2000).
86.
O. Vafek and M. O. Robbins, “Molecular Dynamics Study
of the Stress Singularity at a Corner,” Phys. Rev. B 60, 12002-12006 (1999).
85. G. He,
M. H. Müser and M. O. Robbins, “Adsorbed Layers and the Origin of Static
Friction,” Science 284, 1650-1652
(1999).
84. M. O. Robbins and A. R. C. Baljon, “Response of Thin Oligomer
Films to Steady and Transient Shear,” in Microstructure
and Microtribology of Polymer Surfaces, ACS
Symposium Series vol. 741, Edited by V. V. Tsukruk
and K. J. Wahl, (American Chemical Society, Washington DC, 1999), pp. 91-115.
83.
M. O. Robbins and J. Krim, “Energy Dissipation in
Interfacial Friction,” Materials Research Society Bulletin, June 1998, 23(6), 23-26 (1998).
82. D. Gersappe
and M. O. Robbins, “Where do Polymer Adhesives Fail?” Europhys. Lett. 48(2), 150-155 (1999).
81.
A. R. C. Baljon and M. O. Robbins, “A Molecular View
of Bond Rupture,” Theoretical and Computational Polymer Science 9, 35-40 (1999).
80. A. R. C. Baljon
and M. O. Robbins, ``Adhesion and Friction of Thin Films,'' in special issue on
"Theory and Simulation of Polymers at Interfaces", Materials Research
Society Bulletin, 22 (1), 22-26
(1997).
79. A. R. C. Baljon
and M. O. Robbins, ``Stick-Slip Motion, Transient Behavior, and Memory in
Confined Films,'' in Micro/Nanotribology and its Applications, Edited by B. Bhushan (Kluwer, Amsterdam, 1997)
pp. 533-553.
78. E. D. Smith, M. O.
Robbins and M. Cieplak, ``Friction on Adsorbed Monolayers,''
Phys. Rev. B54, 8252-8260 (1996).
77. S. Kumar, M. O. Robbins, and D. H.
Reich, ``An Experimental Study of the Dynamics of Contact Lines,'' in Disordered Materials and Interfaces,
Materials Research Society Symposia Proceedings Vol. 407, Edited by H. Z.
Cummins, D. J. Durian, D. L. Johnson and H. E. Stanley,
(MRS, Pittsburgh, 1996), pp. 21-25.
76. M. O. Robbins and E. D. Smith, ``Connecting Molecular-Scale and
Macroscopic Tribology,'' Langmuir 12,
4543-47 (1996).
75. A. R. C. Baljon and M. O. Robbins, ``Energy Dissipation During Rupture of Adhesive Bonds,'' Science 271, 482 (1996).
74. M. J. Stevens, Michael L. Falk and M. O. Robbins,
``Interactions between Charged Spherical Macroions,''
J. Chem. Phys. 104, 5209 (1996).
73.
S. Kumar, D. H. Reich and M. O. Robbins, ``Critical dynamics of contact-line
motion,'' Phys. Rev. E52, R5776-5779
(1995).
72. P. A.
Thompson, M. O. Robbins and G. S. Grest, ``Structure and Shear Response in
Nanometer Thick Films,'' Israel Journal of Chemistry 35, 93 (1995).
71. B. Koiller, M. O. Robbins, Hong Ji and
C. S. Nolle, ``Morphology and Dynamics of Domain-Wall
Motion in Disordered Two-Dimensional Magnets,'' in New Trends in Magnetism, Magnetic Materials and their Applications,
J. L. Moran-Lopez and J. M. Sanchez (Eds.) (Plenum, New York, 1994) pp. 75-84.
70. M.
Cieplak, E. D. Smith and M. O. Robbins, ``Molecular origins of friction: The
force on adsorbed layers,'' Science 265,
1209-1212 (1994).
69. C. S. Nolle,
B. Koiller, N. Martys
and M. O. Robbins, ``Effect of quenched disorder on moving interfaces in two
dimensions,'' Physica A 205, 342-354 (1994).
68.
M. J. Stevens and M. O. Robbins, ``Simulations of Shear-Induced Melting and
Ordering,'' Phys. Rev. E48,
3778-3792 (1993).
67.
C. S. Nolle, B. Koiller, N. Martys
and M. O. Robbins, ``Morphology and Dynamics of Interfaces in Random
Two-Dimensional Media,'' Phys. Rev. Lett. 71, 2074-2077 (1993).
66. M. O. Robbins, P. A. Thompson and G.
S. Grest, ``Simulations of Lubrication by Nanometer Thick Films,'' MRS Bulletin
18 (5), 45-49 (1993).
65. P. A. Thompson, M. O. Robbins and G.
S. Grest, ``Simulations of Lubricant Behavior at the Interface With Bearing
Solids,'' in Thin Films in Tribology,
edited by D. Dowson, C. M. Taylor, T. H. C. Childs, M. Godet
and G. Dalmaz (Elsevier, Amsterdam, 1993), pp.
347-360.
64. P. A. Thompson, M. O. Robbins and G.
S. Grest, ``Structure and Dynamics of Confined Films,'' in Computations for the Nano-Scale, edited
by P. Böchl, C. Joachim, and A. J. Fisher,
(Kluwer, Dordrecht,
1993), p.\ 127.
63.
M. J. Stevens and M. O. Robbins, ``Melting of Yukawa Systems: A Test of
Phenomenological Melting Criteria,'' J. Chem. Phys. 98, 2319-2324 (1993).
62. P. A.
Thompson, W. B. Brinckerhoff and M. O. Robbins, ``Microscopic Studies of Static
and Dynamic Contact Angles,'' J. Adhesion Science and Technology 7, 535-554 (1993).
61. Hong Ji and M. O.
Robbins, ``Percolative, self-affine and faceted
domain growth in random three-dimensional magnets'', Phys. Rev. B46, 14519-14527 (1992).
60. M. Cieplak and M. O. Robbins,
``Critical Phenomena in Fluid Invasion: Transitions in Growth Morphology,'' in Surface Disordering: Growth, Roughening and
Phase Transitions, Edited by R. Jullien, J. Kertész, P. Meakin and D. E. Wolf
(Nova Science Publishers, New York, 1992), pp 185-192.
59. M. O. Robbins, M. Cieplak,
H. Ji, B. Koiller and N. Martys, ``Growth in Systems
with Quenched Disorder,'' in Growth
Patterns in Physical Sciences and Biology, edited by J. M. Garcia-Ruiz, L.
Sander and P. Meakin (Plenum Press, New York, 1993)
pp. 65-75.
58.
B. Koiller, Hong Ji and M. O. Robbins, ``Effect of Disorder and Lattice Type on
Domain-Wall Motion in Two Dimensions,'' Phys. Rev. B46, 5258-5265 (1992).
57.
P. A. Thompson, G. S. Grest and M. O. Robbins, ``Phase Transitions and Universal
Dynamics in Confined Films,'' Phys. Rev. Lett.
68, 3448-3451 (1992).
56.
B. Koiller, Hong Ji and M. O. Robbins, ``Fluid wetting properties and the
invasion of square networks,'' Phys.
Rev. B45, 7762-7767 (1992).
55. N. Martys, M. O. Robbins and M. Cieplak, ``Scaling relations
for interface motion through disordered media: Application to fluid invasion,''
Phys. Rev. B44, 12294-12306 (1991).
54. M. O.
Robbins and P. A. Thompson, ``Critical Velocity of Stick-Slip Motion,'' Science
253, 916 (1991).
53. Hong Ji and M. O.
Robbins, ``Transition from compact to self-similar growth in disordered
systems: fluid invasion and magnetic domain growth,'' Phys. Rev. A44, 2538-2542 (1991).
52. M. J. Stevens, M.
O. Robbins and J. F . Belak ``Shear-Melting of
Colloids: A Non-Equilibrium Phase Diagram,'' Phys. Rev. Lett. 66, 3004-3007 (1991).
51.
M. O. Robbins, D. Andelman, and J. F. Joanny, ``Thin
Liquid Films on Rough or Heterogeneous Solids,'' Phys. Rev. A43, 4344-4354 (1991).
50.
N. Martys, M. Cieplak and M. O. Robbins, ``Critical Phenomena
in Fluid Invasion of Porous Media,'' Phys. Rev. Lett. 66, 1058-1061 (1991).
49.
S. Bhattacharya, J. P. Stokes and M. O. Robbins, ``Inductive Anomaly and Noise
Spectrum of a Sliding-Charge-Density-Wave Conductor,'' Phys. Rev. B43, 1835-1838 (1991).
48. P. A. Thompson and M. O.
Robbins, ``To Slip or Not to Slip?,'' Physics World,
November, 1990, p. 35.
47. J. Israelachvili, P. McGuiggan, M.
Gee, A. Homola, M. O. Robbins, and P. A. Thompson,
``Liquid Dynamics in Molecularly Thin Films,'' J. Phys.: Condens.
Matter 2, SA89 (1990).
46. P. A. Thompson and M. O. Robbins, ``Origin of Stick-Slip Motion
in Boundary Lubrication,'' Science 250,
792 (1990).
45. J. P. Stokes, M.
J. Higgins, A. P. Kushnick, S. Bhattacharya, and M.
O. Robbins, ``Harmonic Generation As a Probe of
Contact Line Dynamics,'' Phys. Rev. Lett. 65, 1885 (1990).
44. M. O. Robbins, G.
S. Grest, and K. Kremer, ``Effect of Finite System Size on Thermal
Fluctuations: Implications for Melting,'' Phys. Rev. B42, 5579 (1990).
43. P. A. Thompson and M. O. Robbins,
``Shear Flow Near Solids: Epitaxial Order and Flow Boundary Conditions,'' Phys.
Rev. A41, 6830 (1990).
42. M. J. Stevens and M. O. Robbins,
``Density Functional Theory of Interactions Between Charged Macroions
in Solution,'' Macromolecular Liquids,
Materials Research Society Symposia Proceedings Vol. 177, Edited by C. R. Safinya, S. A. Safran and P. A. Pincus, (Materials Research
Society, Pittsburgh, 1990) p. 237.
41. M. O. Robbins and P. A. Thompson,
``Molecular Dynamics Simulations of Contact Line Motion,'' {\em Macromolecular Liquids}, Materials Research Society
Symposia Proceedings Vol. 177, Edited by C. R. Safinya,
S. A. Safran and P. A. Pincus, (Materials Research Society, Pittsburgh, 1990)
p. 411.
40.
M. Cieplak and M. O. Robbins, ``Influence of Contact Angle on Quasi-Static
Fluid Invasion,'' Phys. Rev. B41,
11508 (1990).
39. M. J. Stevens and M. O. Robbins,
``Density Functional Theory of Ionic Screening: When do Like Charges
Attract?,'' Europhys. Lett.
12, 81 (1990).
38.
J. F. Joanny and M. O. Robbins, ``Motion of a Contact
Line on a Heterogeneous Surface,'' J. Chem. Phys. 92, 3206 (1990).
37. B. Koiller and M.
O. Robbins, ``Elastic Energies and Order in Epitaxial Si-Ge Alloys,'' Phys.
Rev. B: Rapid Communications 40,
12554 (1989).
36. S. Bhattacharya, J.
P. Stokes and M. O. Robbins, ``Broadband-Noise Spectrum in
Sliding-Charge-Density-Wave Conductors,'' Phys. Rev. B: Rapid Communications 40, 5826 (1989).
35. D. Andelman, J. F. Joanny
and M. O. Robbins, ``Wetting of Rough Solid Surfaces by Liquids,'' Proceedings
of NATO ASI on Phase Transitions in Soft Condensed Matter, Geilo, Norway, April 1989.
34. P. A. Thompson and
M. O. Robbins, ``Simulations of Contact-Line Motion: Slip and the Dynamic
Contact Angle,'' Phys. Rev. Lett. 63, 766 (1989).
33. B. Koiller, M. A. Davidovich,
R. Osorio, and M. O. Robbins, ``Electronic Energy and Ordering in (GaAs)1-xGe2x Alloys,'' Proceedings of
the 19th International Conference on the Physics of Semiconductors, Warsaw, Poland. Edited by W. Zawadzki (Polish Academy of Science, Warsaw,
1988), pp. 861-4.
32. D. Andelman, J.-F. Joanny,
and M. O. Robbins, ``Complete Wetting on Rough Surfaces: Statics,'' Europhys. Lett. 7, 731 (1988).
31. M. A. Davidovich, B. Koiller, Roberto Osorio and M. O. Robbins,
``Electronic Theory of Ordering in (GaAs)1-xGe2x Alloys,'' Phys.
Rev. B38, 10524-10532 (1988).
30.
N. Martys and M. O. Robbins, ``Linear ac Response of
a Depinned Charge-Density Wave,'' Phys. Rev. B38, 3773-3776 (1988).
29.
M. Cieplak and M. O. Robbins, ``Dynamical Transition in Quasi-static Fluid
Invasion in Porous Media,'' Phys. Rev. Lett. 60, 2042 (1988).
28. J. P. Stokes, A.P.
Kushnick and M. O. Robbins, ``Interface Dynamics in
Porous Media: A Random Field
Description,'' Phys. Rev. Lett. 60, 1386 (1988).
27. M. O. Robbins, K. Kremer and G. S.
Grest, ``Phase Diagrams of Charge-Stabilized Colloidal Suspensions,'' in
Ordering and Organization in Ionic Solutions, edited by N. Ise
and I. Sogami (World Scientific, Singapore, 1988),
pp. 607-617.
26. M. O. Robbins, K. Kremer, and G. S. Grest, ``Phase Diagram and
Dynamics of Yukawa Systems,'' J. Chem. Phys. 88, 3286 (1988).
25. K. Kremer, G. S. Grest and M. O.
Robbins, ``Dynamics of Supercooled Liquids
Interacting with a Repulsive Yukawa Potential,'' J. Phys. A: Math. Gen. 20, L181-187 (1987).
24. M. O. Robbins and J. F. Joanny, ``Contact Angle Hysteresis on Random Surfaces,'' Europhys. Lett. 3, 729-735 (1987).
23. R. A. Klemm
and M. O. Robbins, ``Charge-Density-Wave Conduction: Dynamics and Finite-Size
Effects,'' Physica 143B, 76-79 (1986).
22. M. O. Robbins and
R. A. Klemm, ``Charge-Density-Wave Conduction:
Dynamics and Finite-Size Effects,'' Phys. Rev. B34, 8496-8506 (1986).
21. K. Kremer, M. O.
Robbins and G. S. Grest, ``Phase Diagram of Yukawa Systems: Model for Charge-Stabilized Colloids,'' Phys.
Rev. Lett. 57,
2694-2697 (1986).
20. J. P. Stokes, D.
A. Weitz, J. P. Gollub, A. Dougherty, M. O. Robbins,
P. M. Chaikin and H. M. Lindsay, ``Interfacial Stability of Immiscible
Displacement in a Porous Medium,'' Phys. Rev. Lett. 57, 1718-1721 (1986).
19.
R. J. Hawkins, M. O. Robbins and J. M. Sanchez, ``Electronic Structure
Calculations of Binary-Alloy Phase Diagrams,'' Phys. Rev. B33, 4782-4792 (1986).
18. S. A. Safran, M. O.
Robbins and S. Garoff, ``Tilt and Splay of
Surfactants on Surfaces,'' Phys. Rev. A33,
2186-2189 (1986).
17. M. O. Robbins, J.
P. Stokes and S. Bhattacharya, ``Charge-Density-Wave Depinning: A Dynamical Critical Phenomenon?,'' Phys. Rev. Lett. 55, 2822-2825 (1985).
16.
J. P. Stokes, M. O. Robbins and S. Bhattacharya, ``AC Response of
Pinned-Charge-Density-Wave Conductors,'' Phys. Rev. B32, 6939-6941 (1985).
15.
M. O. Robbins and B. Koiller, ``Localization Properties of Random and Partially
Ordered One-Dimensional Systems,'' Phys. Rev. B32, 4576-4583 (1985).
14. R. J. Hawkins, M. O. Robbins and J. M.
Sanchez, ``A Microscopic Theory of Binary Alloy Phase Equilibrium,'' Solid State
Commun. 55,
253-256 (1985).
13.
S. Bhattacharya, J. P. Stokes, M. O. Robbins and R. A. Klemm,
`` Origin of Broadband Noise in Charge-Density-Wave Conductors,'' Phys. Rev. Lett. 54,
2453-2456 (1985).
12. J. P. Stokes, M. O. Robbins, S.
Bhattacharya and R. A. Klemm, ``Broadband Noise in
Orthorhombic TaS3,'' Proceedings of the International Conference on
Solids, Budapest, Hungary, September 3-7, 1984.
Edited by Gy. Hutiray and
J. Solyom (Lecture Notes in Physics, Springer-Verlag, New York, 1985), pp. 301-303.
11. R. A. Klemm,
M. O. Robbins and J. R. Schrieffer, ``The Single Domain Model of Charge-Density
Wave Transport,'' Proceedings of the International Conference on Charge Density
Waves in Solids, Budapest, Hungary, September 3-7, 1984. Edited by Gy. Hutiray and J. Solyom (Lecture
Notes in Physics, Springer-Verlag, New York, 1985),
pp. 178-187.
10. M. O. Robbins and R. A. Klemm, ``Charge Density Wave Conduction of Small Samples,''
Proceedings of the International Conference on Synthetic Metals, Abano Terme,
Italy, June 17-22, 1984,
Molecular Crystals
and Liquid Crystals 121, 95-98
(1985).
9. M. O. Robbins, J. P. Stokes, S.
Bhattacharya and R. A. Klemm, ``Broadband Noise in
Orthorhombic TaS3,'' Proceedings of the International Conference on
Synthetic Metals, Abano Terme,
Italy, June 17-22, 1984, Molecular Crystals and Liquid Crystals 121, 63-66 (1985).
8. M.
O. Robbins and L. M. Falicov, ``Electronic Theory of
Ordering and Segregation in Transition-Metal Alloys,'' Phys. Rev. B29, 1333-1348 (1984).
7.
M. O. Robbins and B. Koiller, ``Renormalization Group Methods for the Spectra
of Disordered Chains,'' Phys. Rev. B27,
7703-7715 (1983).
6. B. Koiller, M. O. Robbins, M. Davidovich and C. E. T. Gonçalves
da Silva, ``Renormalization Group Treatment for the
Electronic Spectrum of Partially Ordered One-Dimensional Alloys,'' Solid State Commun. 45,
955-959, (1983).
5. M. O. Robbins and L. M. Falicov, ``Electronic Energy and Short-range Order in
Binary Alloys,'' Materials Research Society Proceedings, Boston, Massachusetts,
November 1-4, 1982. Edited by L. H.
Bennett (Elsevier Science Publishing Company, Inc., New York, 1983), pp. 53-66.
4. L. M. Falicov
and M. O. Robbins, ``Theory of Ordering and Segregation in Binary Alloys: Application to Alkali and Noble Metals,''
Conference Proceedings of the NATO Advanced Study Institute on Excitations in
Disordered Systems, East Lansing, Michigan, August 23-September 4, 1981. Edited by M. F. Thorpe (Plenum Press, New
York, 1982), pp. 613-622.
3. M. O. Robbins and L.
M. Falicov, ``Electronic Theory of Ordering and
Segregation in Binary Alloys:
Application to Simple Metals,'' Phys. Rev. B25, 2343-2357 (1982).
2. M. O. Robbins and E. A. Marseglia, ``X-ray Studies of the Charge-Density Wave
Transitions in TaS2,'' Phil. Mag. B42, 705-715 (1980).
1. A. Strominger, A. L. Sessoms, E. S. Sadowski, M.
Robbins and L. Holcomb, ``A Liquid Argon/Iron Hadron
Calorimeter,'' IEE Trans. Nucl. Sci. NS-25,
354-357 (1978).