LIST OF PUBLICATIONS
Biological invasion in soil: complex network analysis
F. Perez-Reche, S.N. Taraskin, F.M. Neri, C.A. Gilligan,
L. da F. Costa, M. P. Viana,
W. Otten and
D. Grinev
(2009) to be published.
Extracting Accurate Optical Parameters from
Glasses using Terahertz Time-domain
Spectroscopy,
E.P.J. Parrott, J.A. Zeitler, L.F. Gladden, S.N. Taraskin
and S.R. Elliott
J. Non-Cryst.Sol., (2009) in press;
Scaling behavior of the disordered contact process,
S. V. Fallert and S. N. Taraskin
Phys. Rev. E , (2009) in press;
Contact process in disordered and periodic
binary two-dimensional lattices,
S. V. Fallert, Y. M. Kim, C. J. Neugebauer, and S. N. Taraskin
Phys. Rev. E 77, 041117 (2008);
[journal
link]
Simulating the contact process in heterogeneous environments,
S. V. Fallert, J. J. Ludlam, and S. N. Taraskin
Phys. Rev. E 77, 051125 (2008);
[journal
link]
Depolarization current density within the symmetric double-well potential model
for solid ionic conductors,
S. N. Taraskin and F. Henn
Phys. Rev. B 77, 134306 (2008);
[journal
link]
Stochastic spreading processes on a network model based on regular
graphs,
S.V. Fallert and S.N. Taraskin,
in '' Bio-Inspired Computing and Communication'', Eds. P. Lio, E. Yoneki,
J. Crowcroft and D.C. Verma, Lecture Notes in Computer Science 5151 (Springer)
133-144 (2008).
Connection between structural characteristics of glasses
and their crystalline counterparts,
S. N. Taraskin,
J. Phys.: Condens. Matter 19 455215 (2007);
[journal
link]
The atomic charge distribution in glasses obtained by terahertz
spectroscopy,
S. N. Taraskin, S. I. Simdyankin and S. R. Elliott
J. Phys.: Condens. Matter 19 455216 (2007);
[journal
link]
Infrared absorption in glasses and their crystalline counterparts,
S. N. Taraskin,
J. Phys.: Condens. Matter 19 415113 (2007);
[journal
link]
Supercritical series expansion for the contact process in
heterogeneous and disordered environments,
C.J. Neugebauer and S. N. Taraskin,
Phys. Rev. E 67 011119 (2007);
[journal
link]
[arXiv:0705.1967]
Establishment of facultative sexuals,
Chris J. Paley, Sergei N. Taraskin, and Stephen R. Elliott,
Naturwissenschaften, 94 , 505 (2007);
[journal link]
Temporal and Dimensional Effects in Evolutionary Graph Theory,
C.J. Paley, S.N. Taraskin and S.R. Elliott,
Phys. Rev. Lett. 98 , 098103 (2007);
[journal
link]
[arXiv]
Vibrational behaviour of a realistic amorphous-silicon model,
J. K. Christie, S. N. Taraskin, S. R. Elliott,
J. Non-Cryst. Sol., 353 , 2272 (2007);
[journal
link]
[arXiv]
Universal Features of Terahertz Absorption in Disordered Materials,
S. N. Taraskin, S. I. Simdyankin, S. R. Elliott,
J. R. Neilson, and T. Lo,
Phys. Rev. Lett. 97 , 055504 (2006);
[journal link]
[arXiv]
Contact process in heterogeneous and weakly disordered systems,
C.J. Neugebauer, S. V. Fallert, and S. N. Taraskin,
Phys. Rev. E 74, 040101 (2006);
[journal
link]
[cond-mat:0605713]
Spectral properties of disordered fully connected graphs
S. N. Taraskin,
Phys. Rev. E 72, 056126 (2005)
[journal
link]
[cond-mat]
Universal features of localized eigenstates in disordered systems
J.J. Ludlam, S.N. Taraskin, S.R. Elliott and D.A. Drabold, J.
Phys.: Condens. Matter, 17, L321-L327 (2005) [journal
link]
Extinction of epidemics in lattice models with quenched disorder
S.N. Taraskin, J.J. Ludlam, C.J. Neugebauer, and C.A. Gilligan,
Phys. Rev. E 72, 016111 (2005) [journal
link] [cond-mat]
Statistical properties of the critical eigenstates in power-law
random banded matrices across the band
C. J. Paley, S. N.
Taraskin, and S. R. Elliott,
Phys. Rev. B 72, 033105 (2005) [journal
link] [cond-mat]
Modeling the atomic structure of very high-density amorphous ice
J. K. Christie, M. Guthrie, C. A. Tulk, C. J. Benmore, D. D.
Klug, S. N. Taraskin and S. R. Elliott,
Phys. Rev. B 72, 012201
(2005) [journal
link] [cond-mat]
Real and reciprocal space structural correlations contributing to
the first sharp diffraction peak in silica glass
T. Uchino, J.D.
Harrop, S.N. Taraskin, S.R. Elliott,
Phys. Rev. B 71, 014202 (2005)
[journal link]
Positional disorder in lattices: a model for the structural order
responsible for the first sharp diffraction peak in glasses
J. K.
Christie, S. N. Taraskin and S. R. Elliott,
J.Phys.: Condens. Matter,
16, S5109-S5120, (2004). [journal
link]
Atomic vibrations in disordered systems: Comparison of disordered
diamond lattices and a realistic amorphous silicon model
J. K.
Christie, S. N. Taraskin and S. R. Elliott, Phys. Stat. Solidi C1,
2904 (2004) [cond-mat]
Structural characteristics of positionally-disordered lattices:
relation to the first sharp diffraction peak in glasses
J. K.
Christie, S. N. Taraskin and S. R. Elliott,
Phys. Rev. B70, 134207
(2004) [journal
link] , [cond-mat]
,
Disorder-Induced
vibrational localization
J.J. Ludlam, S.N. Taraskin,
S.R. Elliott;
Phys. Rev. B67, 132203 (2003); cond-mat/0208018
Spatial
decay of the single-particle density matrix in tight-binding metals:
analytic results in two dimensions
S.N. Taraskin, P.A.
Fry, Xiadong Zhang, D.A. Drabold, S.R. Elliott;
Phys. Rev. B66,
233101 (2002); cond-mat/0207443
Decay of
the single particle density matrix: analytic results in two and three
dimensions
S. N. Taraskin, D. A. Drabold and S. R. Elliott,
Phys.Rev.Lett., 88, 196405 (2002); cond-mat/0207443
Nature of
vibrational eigenmodes in topologically disordered solids
S.
I. Simdyankin, S. N. Taraskin, M. Elenius, S. R. Elliott and M.
Dzugutov,
Phys.Rev. B, 65, 104302 (2002); cond-mat/0108336
Instantaneous
frequency and amplitude identification using wavelets: Application to
glass structure
J.J. Harrop, S.N. Taraskin and S.R. Elliott,
Phys.Rev. E66, 026703 (2002).
Vector
vibrations and Ioffe-Regel crossover in disordered lattices
S.N.
Taraskin, and S.R. Elliott,
J.Phys.: Condens. Matter, 14,
3143-3166 (2002); cond-mat/0204549
Disorder-induced
zero-energy spectral singularity for random matrices with
correlations
S.N. Taraskin, and S.R. Elliott,
Phys.Rev. B,
65, 052201 (2002); cond-mat/0111276.
Vibrations in disordered systems
S.N. Taraskin and S.R.
Elliott,
Physica, B 316-317, 81-88 (2002).
Vibrational excitations in lattices with anisotropic
force-constant disorder
S.N. Taraskin, E. Allen and S.R. Elliott,
J. Non-Cryst. Sol., 307-310, 92-95 (2002).
Phase transitions and vibrations in disordered lattices
S.N.
Taraskin, and S.R. Elliott, Proceedings of NATO Advanced Research
Workshop "New kinds of phase transitions: transformations in
disordered substances", (2002) to be published.
Propagation, hybridization and localization of vibrational
excitations in disordered materials
S.N. Taraskin, J.J. Ludlam,
G. Natarajan, and S.R. Elliott,
Phil.Mag., B 82, 197-208
(2002).
Spectral density of vibrational excitations in lattices with
force-constant disorder
S.N. Taraskin, and S.R. Elliott,
Phil.Mag., B 81, 1263-1272 (2001).
Comparative numerical structural analysis of the icosahedral glass
and related structures
J. Harrop, S.N. Taraskin, S.I. Simdyankin,
M. Dzugutov, and S.R. Elliott,
J.Non-Cryst.Solids, 293-295,
556-561 (2001).
Vibrational dynamics in disordered structures studied by the
coherent potential approximation
S.N. Taraskin, Y.L. Loh, G.
Natarajan, and S.R. Elliott,
J.Non-Cryst.Solids, 293-295,
333-338 (2001).
Numerical analysis of the vibrational eigenmodes of a 2d
disordered lattice
J.J. Ludlam, T. O. Stadelmann, S.N. Taraskin,
and S.R. Elliott,
J.Non-Cryst.Solids, 293-295, 676-681 (2001).
Effects of topological order on vibrational dynamics in
simple glasses
S.I. Simdyankin, M. Dzugutov, S.N. Taraskin, and
S.R. Elliott,
J.Non-Cryst.Solids, 293-295, 327-332 (2001).
Origin of the
Boson Peak in Systems with Lattice Disorder
S.N. Taraskin,
Y.L. Loh, G. Natarajan, and S.R. Elliott,
Phys.Rev.Lett., 86,
1255-1258 (2001).
Fast
Chebyshev-polynomial method for simulating the time evolution of
linear dynamical systems
Y.L. Loh, S.N. Taraskin, and S.R.
Elliott,
Phys.Rev., E, 63, 056706 (2001).
Connection
between vibrational dynamics and topological order in simple glasses
S.I. Simdyankin, M. Dzugutov, S.N. Taraskin, and S.R. Elliott,
Phys.Rev., B, 63, 184301 (2001); cond-mat/0007373
Vibrational
properties of one-component sigma-phase
S.I. Simdyankin, S.N.
Taraskin, M. Dzugutov, and S.R. Elliott,
Phys.Rev., B, 62,
3223-3231 (2000); cond-mat/0002243.
A fast
time-evolution method for dynamical systems
Y.L.Loh,
S.N.Taraskin and S.R.Elliott,
Phys.Rev.Lett., 84, 2290-2293
(2000).
Ioffe-Regel
crossover for plane-wave vibrational excitations in vitreous silica.
S.N.Taraskin and S.R.Elliott,
Phys.Rev., B 61, 12031-12037
(2000).
Propagation
of plane-wave vibrational excitations in disordered systems.
S.N.Taraskin and S.R.Elliott,
Phys.Rev., B 61, 12017-12030
(2000).
Large paramagnetic effect and related DC conductivity change in
semiconducting glasses under pressure.
M.I.Klinger and
S.N.Taraskin,
Physica, 275, 275-280, (2000).
The vibrational spectrum of amorphous materials obtained by the
use of an Anderson-like Hamiltonian.
S.N.Taraskin and
S.R.Elliott,
Phil.Mag., B 79, 1747-1754 (1999).
Determination of the Ioffe-Regel limit for vibrational excitations
in disordered materials.
S.N.Taraskin and S.R.Elliott,
Phil.Mag.,
B 79, 1755-1761 (1999).
Propagation of vibrational excitations in disordered atomic
structures by a normal-mode analysis.
S.N.Taraskin, G. Cormier
and S.R.Elliott,
Comput.Phys.Commun., 121-122, 540-541 (1999).
Scattering of plane-wave atomic vibrations in disordered
structures
S.N.Taraskin and S.R.Elliott,
in Proceedings of the
Summer School in Cargese ``Physics of Glasses: Structure and
Dynamics'' (Cargese, Corsica May 1999); Eds.: P. Jund and R.
Jullien (AIP Conference Proceedings 489, Melville, NY), (1999)
171-190; cond-mat/9907238.
Extracting the vibrational density of states from neutron
scattering data: beyond the effective density of states.
S.R.Elliott, A. Haar, R.D. Oeffner and S.N.Taraskin,
in
Proceedings of the Workshop on Neutrons and Numerical Methods. Eds.:
H.G. Buttner, M.R. Johnson and G.J. Kearley AIP Conf. Proc. 479,
160-166 (1999).
Anharmonicity
and localization of atomic vibrations in vitreous silica.
S.N.Taraskin and S.R.Elliott,
Phys.Rev., B 59 (1999)
8572-8585.
Low-frequency
vibrational excitations in vitreous silica: the Ioffe-Regel limit.
S.N.Taraskin and S.R.Elliott,
J.Phys.: Cond.Matter., 11
(1999) A219-A227.
Pressure-induced delocalization of charge carriers
("insulator-metal" transition) and magnetic transformation
in glassy semiconductors.
M.I.Klinger and S.N.Taraskin,
Physica
Status Solidi ( b) 211 (1999), 501-506.
dc
conductivity of semiconducting glasses: The role of negative-U
centres, and pressure induced phenomena.
M.I.Klinger and
S.N.Taraskin,
Phys.Rev., B 57 (1998) 12898-12910.
Nature of the low-frequency vibrational excitations in vitreous
silica.
S.N.Taraskin and S.R.Elliott,
J.Non-Cryst.Sol., 232-234
(1998) 205-211.
The dispersion of vibrational excitations in vitreous silica.
S.N.Taraskin and S.R.Elliott,
Phil.Mag., B 77 (1998)
403-420.
Phonons in vitreous silica: dispersion and localization.
S.N.Taraskin and S.R.Elliott,
Europhys.Lett., 39 (1997)
37-42.
How to calculate the true vibrational density of states from
inelastic neutron scattering.
S.N.Taraskin and S.R.Elliott,
Physica B 234-236, 452-454 (1997).
Nature of
vibrational excitations in vitreous silica.
S.N.Taraskin and
S.R.Elliott,
Phys.Rev., B 56 (1997) 8605-8622.
Pressure-induced delocalization of negative-U centres in
semiconducting glasses.
M.I.Klinger, and S.N.Taraskin,
Phys.Lett,
A229 (1997) 242-246.
The
effects of pressure on the thermal equilibrium electron properties of
semiconducting glasses.
M.I.Klinger, and S.N.Taraskin,
J.Phys.: Cond.Matter., 9 (1997) 4425-4436.
The connection
between the true vibrational density of states and that derived from
inelastic neutron scattering.
S.N.Taraskin, and S.R.Elliott,
Phys.Rev., B55 (1997) 117-123.
High-pressure induced phenomena in glasses.
M.I.Klinger, and
S.N.Taraskin,
in ''Borate glasses, crystals and melts``, Ed. by A.C.
Wright, S.A. Feller and A.C. Hannon (Alden Press, Oxford, 1997)
357-363.
Void structure in models of vitreous silica.
S.N.Taraskin,
S.R.Elliott and M.I.Klinger,
J.Non-Cryst.Sol., 192-193 (1995)
263-266.
Pressure-induced structural transformations and phenomena in
glasses: variations in atomic soft configurations and negative-U
centres.
M.I.Klinger, and S.N.Taraskin,
J.Non-Cryst.Sol., 192-193
(1995) 653-656.
Hybridization-induced electron self-trapping in soft local
structures in nonmetallic solids.
M.I.Klinger, and S.N.Taraskin,
Phys.Lett., A203 (1995) 47-52.
Theory of
electron two-band self-trapping in atomic soft configurations:
hybridizations of states, formation of negative-U centres and
anharmonic atomic dynamics.
M.I.Klinger, and S.N.Taraskin,
Phys.Rev., B52 (1995) 2557-2573.
truecm 44. Strong two-band electron self-trapping, state
hybridization effects and related pressure-induced phenomena in
semiconductors.
M.I.Klinger, and S.N.Taraskin,
- in Polarons
and Bipolarons in High-Tc Superconductors and Related Materials ,
Eds: E.K.H.Salje, A.S.Alexandrov andW.Y.Liang, Cambridge Univ.Press,
(1995) 402-426.
Thermal relaxation in disordered systems.
S.N.Taraskin,
Int.J.Electronics, 77 (1994) 213-218.
Theory of electron transport in negative-U systems.
M.I.Klinger,
and S.N.Taraskin,
Int.J.Electronics, 77 (1994) 333-338.
A microscopic model of dangling bonds at interfaces of ordered and
disordered semiconductors.
S.N.Taraskin,
Int.J.Electronics, 77
(1994) 325-332.
Energy level crossing in strong self-trapping.
M.I.Klinger,
and S.N.Taraskin,
- in Hopping and Related Phenomena 5, Eds.:
Adkins C.J., Long A.R., McInnes J.A., World Scientific, 1994,
p.107-111.
Interband interactions and self-trapping in anharmonic systems.
M.I.Klinger, and S.N.Taraskin,
- in Hopping and Related
Phenomena 5, Eds.: Adkins C.J., Long A.R., McInnes J.A., World
Scientific, 1994, p.112-116.
Pressure induced effects in glassy semiconductors: Variations of
negative-U centre properties and related superconductivity.
M.I.Klinger, and S.N.Taraskin,
J.Non-Cryst.Sol., 164-166
(1993) 391-394.
Strong electron self-trapping in anharmonic two-band systems.
M.I.Klinger, and S.N.Taraskin,
Teor. Mat. Fiz. (Theoretical and
Mathematical Physics) 96 (1993) 1057-1061.
On the role of conduction band states in forming of electron
negative-U centers.
M.I.Klinger, and S.N.Taraskin,
Pisma v
Zhur.Exper.Teor.Fiz., (JETP Letters) 57 (1993) 210-216 (in
English).
Strong
self-trapping in semiconducting two band systems.
M.I.Klinger,
and S.N.Taraskin,
Phys.Rev., B47 (1993) 10235-10243.
On fast crossing of a quasicontinuum energy band by a moving
energy level.
M.I.Klinger, V.N.Chukov, and S.N.Tarasrkin,
Phys.Lett., A176 (1993) 259-264.
Thermally activated configurational tunneling at trapping and
recombination in glassy semiconductors.
M.I.Klinger, and
S.N.Taraskin,
Chem.Phys., 170 (1993) 437-443.
Adiabatic potentials for weak bond/dangling bond conversion model
in a-Si:H.
S.N.Taraskin, S.V.Ivliev, and M.I.Klinger,
J.Non-Cryst.Sol., 152 (1993) 237-245.
Exact solution of the problem of two level crossing.
M.I.Klinger,
and S.N.Taraskin,
Phys.Lett., A170 (1992) 225-228.
Electron self-trapping in two band system.
M.I.Klinger, and
S.N.Taraskin,
Pisma v Zhur.Exper.Teor.Fiz. (JETP Lett.) 56
(1992) 209-214 (in English).
Thermalization in a system with a continuous spectrum of states.
S.N.Taraskin,
J.Non-Cryst.Sol., 137-138 (1991) 25-28.
The role of interband interactions in formation of mobility gap
negative-U states in glassy semiconductors.
M.I.Klinger, and
S.N.Taraskin,
Sol.St.Commun. 79 (1991) 231-233.
Equilibration kinetics in systems with quasicontinuous spectrum of
states.
M.I.Klinger, and S.N.Taraskin,
Pisma v Zhur.Tekh.Fiz., 16
(1990) 10-14 (in Russian).
Self-trapped
single-particle exitations in equilibrium and photoconductivity in
glassy semiconductors.
M.I.Klinger, V.G.Kudryavtsev,
M.I.Ryazanov, and S.N.Taraskin,
Phys.Rev., B40 (1989)
6311-6320.
Space correlations of the localized charge carriers in tunneling
recombination.
S.N.Taraskin,
Zhur.Tekh.Fiz., 59 (1989)
40-46 (in Russian).
Pecularities of photoconductivity in disordered semiconductors
with negative-U centres.
M.I.Klinger, V.G.Kudryavtsev,
M.I.Ryazanov, and S.N.Taraskin,
Crystal Lattice Defects and Amorphous
Materials, 13 (1987) 273-278.
The role of negative-U centres in the photoconductivity of glassy
semiconductors.
M.I.Klinger, V.G.Kudryavtsev, M.I.Ryazanov, and
S.N.Taraskin,
J.Non-Cryst.Sol., 92 (1987) 363-366.
Dispersive transport in disordered semiconductors with
self-trapped electron pairs.
S.N.Taraskin,
Fiz.Tverd.Tela, 28
(1986) 3457-3461 (in Russian); Sov.Phys., Solid State, 28
(1986) 1944-1946.
Quasiequilibrium transport of charge carriers in glassy
semiconductors.
S.N.Taraskin,
Fiz.Tverd.Tela, 27 (1985)
2440-2443 (in Russian); Sov.Phys., Solid State, 27 (1986)
1461-1463.
Steady-state photoconductivity in glassy semiconductors.
M.I.Klinger, V.G.Kudryavtsev, M.I.Ryazanov, and S.N.Taraskin,
Dokladi Akad.Nauk, 280 (1985) 91-95 (in Russian).
The peculiarities of photoconductivity kinetics in glassy
semiconductors.
M.I.Klinger, V.G.Kudryavtsev, M.I.Ryazanov, and
S.N.Taraskin,
Pisma v Zhur.Tekh.Fiz., 14 (1985) 326-331 (in
Russian).
On the band tail structure and the peculiarities of temperature
dependence for concentration of localized single-particle carriers in
glassy semiconductors.
M.I.Klinger, V.G.Kudryavtsev,
M.I.Ryazanov, and S.N.Taraskin,
Sol.St.Commun., 53 (1985)
315-319.
On the peculiarities of recombination and capture processes in
semiconductors with negative-U centres.
M.I.Klinger,
V.G.Kudryavtsev, M.I.Ryazanov, and S.N.Taraskin,
Pisma v
Zhur.Tekh.Fiz., 10 (1984) 463-467 (in Russian).
Two frequency light induced absorption and energy density of
localized states in amorphous semiconductors.
V.G.Kudryavtsev,
M.I.Ryazanov, and S.N.Taraskin,
Sol.St.Commun. 45 (1983)
441-444.
The influence of the matter on the moving of fast charged
particles in the presence of external electromagnetic fields.
V.S.Remizovich, and S.N.Taraskin,
Zhur.Tekh.Fiz., 51
(1981) 1356-1363 (in Russian).
The effect of trap occupancy on the transient current in
disordered semiconductors.
V.G.Kudryavtsev, and S.N.Taraskin,
Electronnaya Technica, Ser. 2 (1981) 24-27 (in Russian).
The influence of external electromagnetic fields on penetration of
charged particles in matter.
V.S.Remizovich, and S.N.Taraskin,
-
in Scattering of Heavy Particles in Gases and Condensed Matter,
Energoizdat, Moscow (1981) 84-95 (in Russian ).