RAS B. PANDEY
Professor of
Physics
Department of
Physics and Astronomy
Telephone: 601 266 4485; Fax: 601 266 5149; Email: ras.pandey@usm.edu
PUBLICATIONS: (in refereed journals)
2011:
o
Scaffolding
of an antimicrobial peptide (KSL) by a scale-down coarse-grained approach, R.S.
Hissam, B.L. Farmer, and R.B. Pandey, Phys. Chem. Chem. Phys. 13, 21262 (2011).
o
Supramolecular assembly of a biomineralizing antimicrobial peptide in coarse-grained
Monte Carlo simulations, D. Matthew Eby, Glenn R. Johnson, Barry L. Farmer, Ras
B. Pandey, Phys. Chem. Chem. Phys. 13, 1123 (2011).
o
Adsorption
mechanism of single amino acid and surfactant molecules to Au {111} surfaces in
aqueous solution: design rules for metal binding molecules, J. Feng, R.B. Pandey, R.J. Berry, B.L. Farmer, R.R. Naik, and
H. Heinz, Soft Matter 7, 2113 (2011).
2010:
o
A
layer of clay platelets in a peptide (M1: HGINTTKPFKSV) matrox:
binding, encapsulation and morphology, R.B. Pandey, H. Heinz, B.L. Farmer, L.F.
Drummy, S.E. Jones, R.A. Vaia, and R.R. Naik, J. Polym.
Sci. B: Polymer Physics, 48, 2566 (2010).
o
Bio-functionalization and immobilization of a membrane via
peptide binding (CR3-1, S2) by a Monte Carlo simulation, R.B. Pandey, H. Heinz,
J. Feng, and B.L. Farmer, J. Chem. Phys. 133, 095102
(2010).
o
Bioassembled layered
silicate-metal nanoparticle hybrids, L.F. Drummy,
S.E. Jones, R.B. Pandey, B.L. Farmer, R.A. Vaia, and R.R. Naik, ACS Applied
Mat. Interf. 2, 5658 (2010).
o
Global
structure of a human immunodeficiency virus -1 protease (1DIFA dimer) in an effective solvent medium by a Monte Carlo
simulation, R.B. Pandey and B.L. Farmer J. Chem. Phys. 132, 125101 (2010).
2009:
o Intercalation of solvent and polymer in galleries of mobile clay platelets by a Monte Carlo simulation, R.B. Pandey and B.L. Farmer, J. Poly. Sci. Part B, Polymer Physics 47, 2487 (2009).
o Molecular interactions of peptides with gold, palladium, and Pd-Au bimetal surfaces in aqueous solution, H. Heinz, B.L. Farmer, R.B. Pandey, J.M. Slocik, S.S. Patnaik, R. Pachter, and R.R. Naik, J. Am. Chem. Soc. 131, 9704 (2009).
o Correlated response in a driven flow of self-organizing particles around a slit in porous media by interacting lattice gas, R.B. Pandey and J.F. Gettrust, Phys. Rev. E 80, 011130 (2009).
o Residues energy and mobility in-sequence to global structure and dynamics of a HIV-1 protease (1DIFA) by a coarse-grained Monte Carlo simulation, R.B. Pandey and B.L. Farmer, J. Chem. Phys. 130, 044906 (2009).
o Adsorption
of peptides (A3, Flg, Pd2, Pd4) on gold and palladium
surfaces by a coarse-grained
2008:
o
Exfoliation
of a stack of platelets and intercalation of polymer chains: effects of
molecular weight, entanglement, and interaction with the polymer matrix, R.B.
Pandey and B.L. Farmer, J. Poly. Sci. Part B, Polymer Physics 46, 2696 (2008).
o
Sheets:
Entropy dissipation, multi-scale dynamics, dispersion, and intercalation, R.B. Pandey, K.L. Anderson, and B.L. Farmer, Comp. Sci. Engg. 10, 90 (2008).
o
Conformation of a coarse-grained protein
chain (an aspartic acid protease) model in effective solvent by a
bond-fluctuating Monte Carlo simulation, R.B. Pandey and B.L. Farmer, Phys.
Rev. E 77, 031902 (2008).
o
Effect of temperature and solvent on
dispersion of layered platelets by
o
Can a difference in molecular weights cause
an eruption in a driven flow of self-organizing immiscible system? R.B. Pandey
and J.F. Gettrust, Eur. Phys. J. B 61, 83 (2008).
2007:
o
Monte
Carlo simulation of a film growth with reactive hydrophobic, polar, and aqueous
components by a covalent bond-fluctuating model, S. Yang and R.B. Pandey, J.
Chem. Phys. 126, 174708 (2007)
o
Flow
through a laboratory sediment sample by computer simulation modeling, R.B.
Pandey, A.H. Reed, E. Braithwaite, R. Seyfarth, and J.F. Gettrust, Physica A 374, 501 (2007).
o
Multi-scale
mode dynamics of a tethered membrane, R.B. Pandey, K.L. Anderson, and B.L.
Farmer, Phys. Rev. E 75, 061913 (2007).
2006:
o
Eruptive
Flow Response in a Multi-Component Driven System by an Interacting Lattice Gas
Simulation, R.B. Pandey and J.F. Gettrust, Physica A
368, 416 (2006)
o
Film
Growth and Surface Roughness with Effective Fluctuating Covalent Bonds in
Evaporating Aqueous Solution of Reactive Hydrophobic and Polar Groups: A
Computer Simulation Model, Shihai Yang, Adam
Seyfarth, Sam Bateman, and R. B. Pandey, Macromol.
Theory Simul. 15, 263 (2006)
o
Multi-scale
dynamics of an interacting sheet by a Bond-Fluctuating Monte Carlo simulation,
R.B. Pandey, Kelly L. Anderson, B.L. Farmer, J. Poly. Sci. Part B, Polymer
Physics 44, 2512 (2006)
o
Exfoliation
of stacked sheets: Effects of temperature, platelet size, and quality of
solvent by a
2005:
o
Conformation
and Dynamics of a Self-Avoiding Sheet: Bond-Fluctuation Computer Simulation,R.B. Pandey, Kelly L Anderson, Hendrik Heinz,
and B.L. Farmer, J. Polymer Sci. Part B: Polymer Physics, 43, 1041 (2005).
o
Thermal
roughening and deroughening at polymer interfaces in electrophoretic deposition, Frank W. Bentrem
and R.B. Pandey, Macromolecules 38, 992 (2005)
o
Film
formation from aqueous polyurethane dispersions of reactive hydrophobic and
hydrophilic components: spectroscopic studies and Monte Carlo simulations, D.B.
Otts, Luis A. Cueva-Parra,
R.B. Pandey, and M.W. Urban, Langmuir 21,
4034 (2005).
o
Flow
Response of a Segregating Mixture by Interacting Lattice Gas Simulation, R.B.
Pandey and J.F. Gettrust, Physica A 358, 437 (2005)
o
Structural
response in steady-state flow of a multi-component driven system: Interacting
lattice gas simulation, R.B. Pandey and J.F. Gettrust, Physica
A 345, 555 (2005).
o
Effects
of temperature and solvent on the structure and transport of a tethered
membrane: Monte Carlo simulation, R.B. Pandey, K.L. Anderson, and B.L. Farmer, J.
Polymer Sci. Part B: Polymer Physics 43, 3478 (2005).
2004:
o
Relaxation
to native conformation of a bond-fluctuating protein chain with hydrophobic and
polar nodes, Johan Bjursell and R.B. Pandey, Phys.
Rev. E 70, 052904 (2004).
o
Surface
phase partitioning in film formation of waterborne polyurethanes:
o
Radical
initiated polymerization in a bifunctional mixture
via computer simulation,Keri L. Diamond, R.B. Pandey,
and Shelby F. Thames,J. Chem. Phys. 120, 11905 (2004)
o
Modeling
the polymerization behavior of vegetable-oil-derived macromonomers
in solution by computer simulation, Keri L. Diamond, R.B. Pandey, and Shelby F.
Thames, J. Polymer Sci. B 42, 1164 (2004)
o
Modeling
of polymerization behavior of mixtures of acrylates and
olefins via computer simulation, Keri L. Diamond, R.B. Pandey, and Shelby F.
Thames, Structural Chem. 15, 509 (2004).
o
A
momentum trading approach to technical analysis of DOW Jones industrials, H.
Wang and R.B. Pandey,Physica A 331, 639 (2004).
o
Momentum
analysis of DJI stocks near sharp rise, crash, and consolidation, H. Wang and
R.B. Pandey, Physica A 334,
524 (2004).
2003:
o
Self-organized
phase segregation in a driven flow of dissimilar particles mixtures, R.B.
Pandey, J.F. Gettrust, R. Seyfarth, and L.A. Cueva-Parra,
Int. J. Mod. Phys. C 14, 955 (2003).
o
Driven
chain macromolecule in a heterogeneous membrane-like medium, R.B. Pandey and R.
Seyfarth, Structural Chem. 14, 445 (2003).
o
Polymer
interface changes in electrophoretic deposition, R.B.
Pandey,Prog. Organic
Coatings, 47, 324 (2003).
2002:
o
Effects
of viral mutation on cellular dynamics in a
o
Asymmetries,
Correlations and Fat Tails in Percolation Market Model, Iksoo
Chang, Dietrich Stauffer, R.B. Pandey, J. Theor.
Appl. Finance 5, 585 (2002).
o
Electrophoretic deposition of
chain macromolecules: conformation and density profile, roughening, and deroughening, R.B. Pandey, Struct.
Chem. 13, 161 (2002)
o
Density
and conformation with relaxed substrate, bulk, and interface in electrophoretic deposition of polymer chains, Frank W. Bentrem, Jun Xie, and R. B.
Pandey, J. Mol. Structure: THEOCHEM 592, 95 (2002)
o
Interface
relaxation in electrophoretic deposition of polymer chains:
Effects of segmental dynamics, molecular weight, and field, Frank W. Bentrem, Jun Xie, and R.B.
Pandey, Phys. Rev. E 65, 041606 (2002)
o
Viral
load and stochastic mutation in a Monte Carlo simulation of HIV, H.J. Ruskin,
R.B. Pandey, and Y. Liu, Physica A 311, 213 (2002)
o
Density
Profile and Flow of Miscible Fluid with Dissimilar Constituent Masses, R.B.
Pandey, D. Stauffer, R. Seyfarth, Luis A. Cueva, J.F.
Gettrust, and Warren Wood, Physica A 310, 325 (2002)
2001:
o
Concentration
gradient, diffusion, and flow through open porous medium near percolation
threshold via computer simulations, R.B.Pandey, J.F.
Gettrust, and D. Stauffer, Physica A 300, 1 (2001).
o
Density
profile and flow of driven gas in an open porous medium with a computer simulation,
R.B. Pandey, J.L. Becklehimer, and J.F. Gettrust, Physica A 289, 321 (2001).
o
Effect
of trading momentum and price resistance on stock market dynamics: a glauber Monte Carlo simulation, F. Castiglione, R.B.
Pandey, and D. Stauffer, Physica A 293, 223 (2001).
o
Gradient
driven flow: Lattice gas, diffusion equation, and measurement scale, R.B.
Pandey, W.T. Wood, and J.F. Gettrust, Int. J. Mod. Phys. C 12, 273 (2001).
o
A
monte carlo simulation of thermal driven fluid: flux rate
and density profile, R.B. Pandey and J.F. Gettrust, Physica
A 293, 93 (2001).
2000:
o
A
hybrid Monte Carlo approach to molecular aggregation in a porous medium, G.M. Foo and R.B. Pandey, Eur. Phys. J. E 1, 221 (2000).
o
Electrophoretic deposition of
polymer chains: A Monte Carlo study of density profile and conformation, G.M. Foo and R.B. Pandey, Biomacromolecules
1, 407 (2000).
o
Effect
of polymer matrix density on molecular segregation and orientational
ordering by a hybrid computer simulation, G.M. Foo
and R.B. Pandey, Physica A 282, 375 (2000).
o
Search
for log-periodic oscillations in stock market simulation, R.B. Pandey and D.
Stauffer, International J. Theor. and
Appl. Fin. 3, 479 (2000).
o
Roughening,
deroughening, and nonuniversal
scaling of the interface width in electrophoretic
deposition of polymer chains, F.W. Bentrem, R.B.
Pandey, and F. Family, Phys. Rev. E 62, 914 (2000).
o
A
o
Effect
of mutation on helper T-cells and viral population: A computer simulation model
for HIV, R. Mannion, H. Ruskin, and R.B. Pandey, Theor. Biosci. 119, 10 (2000).
o
Effect
of cellular mobility on immune response, R.B. Pandey, R. Mannion,
and H. Ruskin, Physica A 283, 447 (2000).
o
Driven
flow and pinning of molecular aggregates in a heterogeneous medium, G.M. Foo and R.B. Pandey, J. Chem. Phys. 112, 10659 (2000).
o
Characterization
of driven polymer surfaces: growth and roughness, G.M. Foo
and R.B. Pandey, Phys. Rev. E 61, 1793 (2000).
o
Fractal
dimensionality of pore and grain volume of a siliciclastic
marine sand, A.H. Reed, R.B. Pandey, and D.A. Lavoie, Int. J. Mod. Phys. C 11,
1555 (2000).
1999:
o
Flow
of Polymer Chains and Segregation in a Field with a Hybrid Simulation, G.M. Foo and R.B. Pandey, Macromol. Theor.Simul. 8, 571 (1999).
o
Simulations
of Sol-to-Gel modeling: effects of mobility, reversibility, and quality of
solvent, R.B. Pandey and Y. Liu,J. Sol-Gel Sci.
Tech.15, 147 (1999).
o
Effects
of field on temperature-induced segregation and folding of polymer chains, G.M.
Foo and R.B. Pandey, J. Chem. Phys.110, 5993 (1999).
o
Thermal-induced
crossover: Darcy-to-Power law response inflow of polymer chains, G.M. Foo and R.B. Pandey, Physica
A265, 416 (1999).
o
Log-periodic
oscillations for biased diffusion of a polymer chain in a porous medium, V. Yamakov, A. Milchev, G.M. Foo, R.B. Pandey, D. Stauffer, Euro. Phys. J. B 9, 659 (1999).
1998:
o
Electrophoretic deposition of
polymer chains on adsorbing surface in (2+1)-dimensions: conformational anisotropy
and nonuniversal coverage, G.M. Foo
andR.B. Pandey, Phys. Rev. Lett.
80, 3767 (1998).
o
Conformation
and dynamics of polymer chains on dirty surfaces: a discrete-to-continuum
approach, G.M. Foo and R.B. Pandey, J. Chem. Phys.
109, 1162 (1998).
o
A
discrete-to-continuum simulation approach to polymer chain systems: subdiffusion, segregation, and chain folding, G.M. Foo and R.B. Pandey, Phys. Rev. E 57, 5802 (1998).
o
A
computer simulation study of cell population in a fuzzy interaction model for
mutating HIV, A. Mielke and R.B. Pandey, Physica A
251, 430 (1998).
o
Electrophoretic flow of
interacting polymer chains: Effects of temperature, polymer concentration, and
porosity, G.M. Foo and R.B. Pandey,
Macromol.
Theory Simul.
7, 283 (1998).
o
A
stochastic cellular automata approach to cellular dynamics for HIV: effect of
viral mutation, R.B. Pandey, Theory Biosci.117, 32 (1998).
1997:
o
Electro-deposition
of polymer chains on an adsorbing wall: Density profiles and wall coverage,
G.M. Foo and R.B. Pandey, J. Chem. Phys. 107, 10260
(1997).
o
Nonuniversal scaling and
conformational crossover of polymer chains in an electrophoretic
deposition, G.M. Foo and R.B. Pandey, Phys. Rev. Lett. 79, 2903 (1997).
o
Crossover
dynamics for polymer simulation in porous media, V. Yamakov,
D. Stauffer, A. Milchev, G.M. Foo,
and R.B. Pandey, Phys. Rev. Lett. 79, 2356 (1997).
o
A
lattice gas approach to shock propagation in a clay-like deformable porous
medium, R.B. Pandey and J.L. Becklehimer, Physica A 243, 243 (1997).
o
Conformation
of interacting polymer chains: effects of temperature, bias, polymer
concentration, and porosity, G.M. Foo and R.B.
Pandey, Phys. Rev. E 55, 4433 (1997).
o
Computer-simulation
studies of kinetic gelation,
Y. Liu and R.B. Pandey, Phys. Rev. B55, 8257 (1997).
o
Semidilute and
concentrated polymer solutions near attractive walls: Dynamic Monte Carlo
simulation of density and pressure profiles of a coarse-grained model, R.B.
Pandey, A. Milchev, and K. Binder, Macromolecules 30,
1194 (1997).
o
Conformation
and dynamics of interacting polymer chains in a porous medium, G.M. Foo and R.B. Pandey, Physica A
241, 500(1997).
1996:
o
Inhomogeneity in gelation and nonuniversality of
Sol-to-Gel transition by a computer simulation model, Y. Liu and R.B.Pandey, Phys.
Rev. E 54, 6609 (1996).
o
Kinetics
and jamming coverage in a random sequential adsorption of polymer chains, J.-S.
Wang and R.B. Pandey, Phys. Rev. Lett.77, 1773 (1996).
o
Dynamics
of interacting polymer chains and solvents, R.B. Pandey, A.T. Bernardes, G.M. Foo, and D.
Stauffer, J. Chem. Phys. 105,1682 (1996).
o
Sol-gel
transitions in thermoreversible gels: Onset of gelation and melting, Y. Liu and R.B. Pandey, J. Chem.
Phys. 105, 825 (1996).
o
Dynamics
and conformation of polymer chains in a porous medium, G.M. Foo,
R.B. Pandey, and D. Stauffer, Phys. Rev. E53, 3717 (1996).
o
Lateral
diffusion in a binary lipid system by a computer simulation, R.B. Pandey, Physica A 223, 309 (1996).
1995:
o
Computer
simulation study of the permeability of driven polymers through porous media,
G.M. Foo and R.B. Pandey, Phys. Rev. E 51,5738 (1995).
o
Computer
simulation study of the permeability of a porous sediment model, R.B. Pandey
and J.L. Becklehimer, Phys. Rev. E51, 3341 (1995).
o
A
hybrid computer simulation approach to shock propagation in fluid through
porous media, R.B. Pandey and J.L. Becklehimer, Physica A 219, 121 (1995).
1994:
o
Driven
front and interface of a fluid-flow model in 2+1 dimensions, M.J. Leaseburg and R.B. Pandey, Phys. Rev. E 50, 3730 (1994).
o
Simulation
of the growth of a binary composite by a controlled thermal annealing, R.B.
Pandey, R.S. Sinkovits, E.S. Oran, and J.P.
Boris, J. Phys. I 4, 1427 (1994).
o
Kinetics
of gelation growth in a sol-gel transition by a
computer-simulation model, Y. Liu and R.B. Pandey, J. Phys. II 4, 865 (1994).
o
Micelle
formation, relaxation time, and three-phase coexistence in a microemulsion model, D. Stauffer, N. Jan, Y. He, R.B.
Pandey, D. Gerrard Marangoni
and T. Smith-Palmer, J. Chem. Phys. 100, 6934 (1994).
o
Percolation
of chains and jamming coverage in two dimensions by computer-simulation, J.L. Becklehimer and R.B. Pandey, J. Stat. Phys. 75, 765 (1994).
o
Computer
simulation of random sequential adsorption of two interacting species on a
lattice, R.S. Sinkovits and R.B. Pandey, J. Stat.
Phys. 74, 457 (1994).
1993:
o
Evidence
of a nondiffusive transport in a monodisperse
screened Coulomb system by molecular dynamics simulation, M. Wild and R.B. Pandey,
Phys. Rev. E 47, 3246 (1993).
o
Driven
diffusion,
o
Driven
diffusion of particles, first passage front and interface growth, R. Bidaux and R.B. Pandey, Phys. Rev. E 48, 2382 (1993).
o
Simulation
of amphiphilic polymer chain in a lattice model for microemulsion, D. Stauffer, N. Jan, and R.B. Pandey, Physica A 198, 401 (1993).
1992:
o
Simulation
of demixing transition for binary fluid within a gel,
D. Stauffer and R.B. Pandey, J. Phys. A 25, L 1079 (1992).
o
A
Monte Carlo study of subdiffusive displacements of
interacting particles in a percolating system, R.B. Pandey, Physica
A 191, 438 (1992).
o
Breakdown
of diffusive motion in an interacting lattice gas, R. B. Pandey, Physica A187,77 (1992).
o
A
computer-simulation study of sticks percolation, J. Becklehimer,
and R.B. Pandey, Physica A 187, 71 (1992).
o
Immunologically
motivated simulations of cellular automata, D. Stauffer and R.B. Pandey, Comp.
in Phys. 6, 404 (1992).
o
Dynamic
scaling of the interface in a diffusive front, F. Family and .B. Pandey,
J. Phys. A 25, L745 (1992).
o
A
continuum analysis of cellular growth for a model of immune response relevant
to HIV infection, R.B. Pandey, J. Phys. I 2, 37 (1992).
1991:
o
A
computer-simulation study for the permeability of an interacting lattice gas
through a percolating system, R.B. Pandey and S. Yu, J. Phys. A24, 3959 (1991).
o
Cellular
automata approach to interacting cellular network models fort he dynamics of
cell population in an early HIV infection, R.B. Pandey, Physica
A179, 442 (1991).
o
Transport
properties of an interacting-lattice-gas in a charge density gradient by Monte
Carlo simulation, R.B. Pandey and S. Gao, Phys. Rev.
A 43, 4365 (1991).
o
On
a discrete approach to cell dynamics in context to immune response against HIV,
R. B. Pandey, J. Phys. I 1, 1709 (1991).
o
Minimal
path on the hierarchical diamond lattice, S. Roux, A. Hansen, L. R. da Silva, L. S. Lucena, and R. B.
Pandey, J. Stat. Phys. 65, 183 (1991).
1990:
o
Power-law
exponents for a spreading front and growing interface in an irreversible
wetting, E. Willett and R.B. Pandey, Phys. Rev. Lett.
65, 3414 (1990).
o
Metastability with
probabilistic cellular automata in an HIV infection, R. B. Pandey, and D.
Stauffer, J. Stat. Phys. 61, 231 (1990).
o
Computer
simulation study of conductivity in a two-dimensional binary fluid mixture, R.
B. Pandey, Phys. Rev. A42, 3363 (1990).
o
Growth
and decay of a cellular population in a multicell
immune network, J. Phys. A 23, 4321 (1990).
1989:
o
Computer
simulation of a cellular automata model for the immune response in a retrovirus
system, R. B. Pandey, J. Stat. Phys. 54,
997 (1989).
o
Immune
response via interacting three dimensional network of
cellular automata, R. B. Pandey and D.
Stauffer, J de Phys. 50, 1 (1989).
o
Interface
width of a moving front in a model of stochastic transport in two dimensions,
R. B. Pandey, J. Phys. A22, L749 (1989).
o
Monte
Carlo study of surface critical behavior in the XY model, D. P. Landau, R. B.
Pandey, and K. Binder, Phys. Rev. B39, 12302 (1989).
1988:
o
A
scaling approach for the conductivity in a superconductor-insulator stirred
percolating systems, R. B. Pandey, Phys. Rev. A38, (1988).
1987:
o
Nonmonotonic conductivity in
a conductor-insulator fluid mixture, R. B. Pandey, J. Phys. A 20, L1287 (1987).
o
Monte
Carlo evidence for the deviation from the Alexander-Orbach
rule in three dimensional percolation, R. B. Pandey, D. Stauffer, and J. G. Zabolitsky, J. Stat. Phys 49, 849 (1987).
o
Critical
slowing down in a randomly biased percolating system at percolation threshold,
R. B. Pandey,J. Phys. A20, L337 (1987).
o
Conductivity
exponent for stirred superconductor-insulator mixtures, A. R. Kerstein and R. B.Pandey, Phys.
Rev. A35, 3575 (1987).
1986:
o
Graph
theory, fractal nature and physicochemical properties of alkane,
R. Rouvrary and R. B. Pandey, Chem. Phys.85, 2286
(1986).
o
Disordered-induced
transport: I. Simple cubic lattice, R. B. Pandey, J. Phys. A 9, 3925 (1986).
o
Anomalous
Conformation of Chain Polymers: Random
Walk of a Random Walk on a Random Walk, R. B. Pandey, J. Phys. A L53 (1986).
1985:
o
Directed
Gelation in Branched Polymers, R. B. Pandey and D. P.
Landau, J. Phys. A 18, L399 (1985).
o
Inhomogeneity during the bulk
polymerization of divinyl compounds: differential
scanning calorimetry experiments and percolation
theory, H. Boots, J. Kloosterboer, G. van de Hei, and R.B. Pandey, Brit. Polym.J.
17, 219 (1985).
1984:
o
Qualitative
percolation study of free radical cross-linking polymerization, H. M. J. Boots and R. B. Pandey, Polymer Bull. 11, 415
(1984).
o
The
notion of a strange fractal phenomena - disorder
induced walk, R. B. Pandey, J. Phys. A 17, L551 (1984).
o
Flory
theory for the fractal nature of an irreversible kinetic gelation
in branched polymer, R.B. Pandey, J. Phys. A17, L579 (1984).
o
Speculations
of self avoiding surfaces in fractals-a mean field treatment, R. B. Pandey,
o
Classical
diffusion, drift and trapping in random percolation systems, Phys. Rev. B 30,
489 (1984).
o
Classical
diffusion on random systems above, below and at percolation threshold in two
and three dimensions, R. B. Pandey, D. Stauffer, A. Margolina,
and J. Zabolitzky, J. Stat. Phys. 34, 427 (1984).
o
Real
space renomalization group for kinetic gelation, T. Lookman,R.
B. Pandey, N. Jan, D. Stauffer, L. L.
Moseley, and H.E. Stanley, Phys. Rev. B 29, 2805 (1984).
o
Computer
simulation of irreversible kinetic gelation: crossover between random and kinetic growth,
radical conservation, poison and chain preferred reactions, R. B. Pandey, J. Stat. Phys. 34, 163 (1984).
1983:
o
Fractal
dimensionality and the number of visited sites of the ant in the labyrinth, R.
B. Pandey and D. Stauffer, J. Phys. A
16, L511 (1983).
o
Confirmation
of dynamical scaling at percolation threshold, R. B. Pandey and D. Stauffer, Phys.
Rev. Lett. 51, 527 (1983).
o
Computer
simulation of gelation with and without radicals by
additive copolymerization, R. B. Pandey and D. Stauffer, Phys. Lett. 95A, 511 (1983).
o
Exact
results for the linear chain planar EQQ model, R. B. Pandey, Phys. Lett. 96A, 397 (1983).
1981:
o
Critical
properties of diluted anisotropic magnets near percolation threshold, D. Kumar,
R.B. Pandey, and M. Barma, Phys. Rev. B 23, 2269
(1981).
1979:
o
Renormalization
group calculations for the dilute Heisenberg magnet, M. Barma,
D. Kumar, and R.B. Pandey, J. Phys. C
12, L 283 (1979).
o
Comment
on 'Migdal renormalization group approach to quantum spin
systems, M. Barma,
D. Kumar, and R.B. Pandey, J. Phys. C 12, L 909 (1979).
o
Migdal-like approximation for quantum spin systems, M. Barma, D. Kumar, and
R.B. Pandey, J. Appl. Phys. 50, 7394 (1979).