J.-M. Teissier and S. Russ:
Scaling behavior of diffusion on binary Archimedean random electrical lattices and on layers;
J. Stat. Phys. 2019, 033208 (2019)
2017
C. Seitz, G. Beck, J. Hennemann, C. Kandzia, P. Hering, A. Polity, P. J. Klar, A. Paul, T. Wagner, S. Russ and B. M. Smarsly:
H2S dosimeter with controllable percolation threshold based in semiconducting copper oxide thin films;
J. Sens. Sens. Syst., 6, 163 (2017). Abstract
2015
J. Hennemann, C.-D. Kohl, B. Smarsly, T. Sauerwald, J.-M. Teissier, S. Russ and T. Wagner:
CuO Thin Films for the Detection of H2S Doses - Investigation and Application;
Phys. Status Solidi A, 212, 1281 (2015). DOI 10.1002/pssa.201431735
J. Hennemann, C.-D. Kohl, B. Smarsly, H. Metelmann, M. Rohnke, J. Janek, D. Reppin,
B. K. Meyer, S. Russ and T. Wagner:
Copper oxide based H2S dosimeters - Modeling of percolation and diffusion processes;
Sens. and Actuators B 217, 41 (2015). DOI: 10.1016/j.snb.2015.02.001>.
ddP
2014
S. Russ:
Percolation model for a selective response of the resistance of composite semiconducting np-systems towards reducing gases;
Phys. Rev. E 90, 022141 (2014).
2013
T. Sauerwald and S. Russ:
Percolation effects in metal oxide gas sensors and related systems; in:
"Gas Sensing Fundamentals" (Springer Series on Chemical Sensors and Biosensors),
Edited by C.-D. Kohl and T. Wagner (Springer Verlag, Berlin Heidelberg, 2013), Chapter 7.
J. Dräger, S. Russ, T. Sauerwald, C.-D. Kohl and A. Bunde:
Percolation transition in the gas-induced conductance of nanograin metal oxide films with defects;
J. Appl. Phys. 113 223701 (2013).
Doi: 10.1063/1.4809572
Access via Scopus
T. Sauerwald, J. Hennemann, C.-D. Kohl, T. Wagner, and S. Russ:
H2S detection utilizing percolation effects in copper oxide;
Proceedings SENSOR 2013 (AMA Conferences 2013, Nuremberg, Germany, 2013), p.656-660
Doi: 10.5162/sensor2013/E6.4
2012
J. Hennemann, T. Sauerwald, T. Wagner, C.-D. Kohl, J. Dräger and S. Russ:
Electrospun Copper(II)oxide Fibers as Highly Sensitive and Selective Sensor for Hydrogen Sulfide Utilizing Percolation
Effects;
Proceedings of: 14th International Meeting on Chemical Sensors, IMCS 2012, Nuremberg, Germany, 2012, p. 197-200.
ISBN: 978-3-9813484-2-2, Doi: 10.5162/IMCS2012/2.3.4
2011
S. Russ and A. Bunde:
Relaxation in ordered systems of ultrafine magnetic particles: effect
of the exchange interaction;
J. Phys.: Condens. Matter 23 126001 (2011).
2010
2009
S. Russ:
Exact calculation of the self-diffusion coefficient in disordered linear pores in the Knudsen regime;
Phys. Rev. E 80 061133 (2009).
2008
S. Zschiegner, S. Russ, R. Valiullin, M.-O. Coppens, A.-J. Dammers, A. Bunde and J. Kärger:
Normal and anomalous diffusion of non-interacting particles in linear nanopores;
Eur. Phys. J. 161 109 (2008).
S. Zschiegner, S. Russ, A. Bunde, M.-O. Coppens and J. Kärger:
Normal and anomalous Knudsen diffusion in 2D and 3D channel pores;
Diffusion Fundamentals 7 17.1 - 17.2 (2008) (Open Access Journal)
2007
S. Zschiegner, S. Russ, A. Bunde and J. Kärger:
Cube-based diffusion algorithm;
Diffusion Fundamentals 4 13.1 - 13.8 (2007) (Open Access Journal)
S. Russ and A. Bunde:
Ising-like dynamics and frozen states in systems of ultrafine magnetic particles;
Phys. Rev. B 75 174445 (2007).
cond-mat/0704.0580.
S. Zschiegner, S. Russ, A. Bunde and J. Kärger:
Pore opening effects and transport diffusion in the Knudsen regime;
Europhys. Lett. 78 20001 (2007).
cond-mat/0703288.
2006
S. Russ and A. Bunde:
Monte-Carlo simulations of frozen metastable states in ordered systems of ultrafine magnetic particles;
Phys. Rev. B 74 064426 (2006).
cond-mat/0604620.
S. Russ and J. Mellenthin:
Application of the trace formula in pseudointegrable systems;
Phys. Rev. E 74 066227 (2006).
cond-mat/0603663.
2005
S. Russ, S. Zschiegner, A. Bunde and J. Kärger:
Lambert diffusion in porous media in the Knudsen regime:
equivalence of self- and transport diffusion;
Phys. Rev. E 72 030101(R) (2005).
B. Sapoval, J. S. Andrade Jr, A. Baldassari, A. Desolneux, F. Devreux, M. Filoche,
D. Grebenkov and S. Russ:
New simple properties of a few irregular systems;
Physica A 357 1 (2005).
S. Russ, S. Zschiegner, A. Bunde and J. Kärger:
Lambert diffusion in porous media in the Knudsen regime;
Adv. in Solid State Phys. 45 59 (2005).
DOI:10.1007/11423256_5
S. Russ and J. Mellenthin:
Periodic orbit theory in fractal drums;
Physica A 357 cond-mat/0704.0580.159 (2005).
2004
J. Mellenthin and S. Russ:
Periodic orbit theory and
spectral rigidity in pseudointegrable systems;
Phys. Rev. E 70 056205 (2004).
S. Russ:
Renormalization approach for the 2D Anderson model at the band
edge: Scaling of the localization volume;
Phys. Rev. B 70 174201 (2004),
[cond-mat/0307525].
S. Russ and Y. Hlushchuk:
Localized low-frequency Neumann modes in 2d-systems
with rough boundaries;
Europhys. Lett. 67 70 (2004),
[cond-mat/0405414].
Y. Hlushchuk, U. Kuhl and S. Russ:
Level dynamics in pseudointegrable billiards: an experimental study;
Physica A 344 523 (2004),
[cond-mat/0403461].
A. Bunde, M. D. Ingram and S. Russ:
A new interpretation of the dynamic structure model of ion transport
in molten and solid glasses;
Phys. Chem. Chem. Phys. 6 3663 (2004),
[cond-mat/0405413].
2003
Y. Hlushchuk and S. Russ:
Level statistics and eigenfunctions
of pseudointegrable systems: dependence on energy and genus number;
Phys. Rev. E 68 016203 (2003).
S. Russ and Y. Hlushchuk:
Pseudointegrable systems with growing surface roughness;
Prog. Theo. Phys. Supp. 150 411 (2003).
2002
S. Russ:
Scaling of the localization length in random correlated
Anderson and vibrational 1D-systems;
Phys. Rev. B 66 012204 (2002).
A. Bunde, J. W. Kantelhardt and S. Russ:
Vibrational models for the boson peak;
Journal of Non-Crystalline Solids 307-310 96 (2002).
S. Russ and B. Sapoval:
Increased damping of irregular and fractal drums;
Phys. Rev. E 65 036614 (2002).
2001
S. Russ:
Energy fluctuations in the spectra of pseudointegrable fractal
drums;
Phys. Rev. E 64 056204 (2001).
S. Russ, J. Kantelhardt, A. Bunde and S. Havlin:
Localization in Self-Affine Energy Landscapes;
Phys. Rev. B 64 134209 (2001).
J. Kantelhardt, S. Russ and A. Bunde:
Excess modes in the vibrational spectrum of disordered systems and the boson
peak;
Phys. Rev. B 63 064302 (2001).
2000
A. Bunde, S. Havlin, J. Kantelhardt, S. Russ and I. Webman:
Localization in a highly correlated potential landscape;
J. Mol. Liq. 86 151 (2000).
J. Kantelhardt, S. Russ, A. Bunde, S. Havlin and I. Webman:
Comment on "Delocalization in the 1D Anderson model with long-range correlated disorder";
Phys. Rev. Lett. 84 198 (2000).
Last Century:
S. Russ, J. Kantelhardt, A. Bunde, S. Havlin and I. Webman:
Anderson localization in a random correlated energy landscape;
Physica A 266 492 (1999).
C. Even, S. Russ, V. Répain, P. Pieranski and B. Sapoval:
Experimental proof of the existence of localized modes in a fractal drum;
Phys. Rev. Lett. 83 726 (1999).
J. Kantelhardt, S. Russ, A. Bunde, S. Havlin and I. Webman:
Strong localization in the Anderson model with self-affine
potential landscapes
Ann. Phys. (Leipzig) 8 SI-125 (1999).
B. Hébert, B. Sapoval and S. Russ:
Experimental study of
a fractal acoustical cavity;
Journal of the Acoustical Society of America 105 1567 (1999).
S. Russ, S. Havlin and I. Webman:
Anderson localization in a correlated
landscape near the band edge;
Phil. Mag. 77 1449 (1998).
B. Sapoval, O. Haeberlé and S. Russ:
Acoustical properties
of irregular and fractal cavities;
Journal of the Acoustical Society
of America 102 2014 (1997).
S. Russ, B. Sapoval and O. Haeberlé:
Irregular and fractal
resonators with Neumann boundary conditions: density of states and localization;
Phys. Rev. E 55 1413 (1997).
B. Sapoval, S. Russ, J. P. Korb, D. Petit:
Fractal geometry impact
on nuclear relaxation in irregular pores;
Magnetic Resonance Imaging 14 863 (1996).
Sapoval and S. Russ:
Localization of electrons and acoustical phonons
in irregular or fractal crystallites;
MRS Proceedings 1995
407 253 (1995).
A. Bunde, J. Dräger, S. Havlin, H. E. Roman, S. Russ:
Localization of fractons, random walks and linear polymers in percolation;
Fractals 4 355 (1996).
B. Sapoval, S. Russ, J. P. Korb, D. Petit;
Nuclear relaxation in irregular or fractal pores;
Fractals 4 453 (1996).
B. Sapoval, S. Russ and J.-N. Chazalviel:
Eigenstates in irregular quantum wells: application to porous silicon;
J. Phys. C 8 6235 (1996).
J. Dräger, S. Russ and A. Bunde:
Localization in random self-similar structures: Universal behavior;
Europhys. Lett. 31 425 (1995).
B. Sapoval and S. Russ:
Effect of geometrical irregularities on the
band gap of porous silicon;
MRS Proceedings 1994 358 37 (1994).
S. Russ and B. Sapoval:
Damping and spatial distribution of
percolation fractons;
MRS Proceedings 1994 367 (1994) 225.
S. Russ and B. Sapoval:
Viscous damping of fractal resonators;
Int. J. Appl. Sc. Comp. 22 333 (1995).
S. Russ, and B. Sapoval:
Anomalous viscous damping of vibrations
of fractal percolation cluster;
Phys. Rev. Lett. 73 1570 (1994).
B. Sapoval and S. Russ:
Super-localized character of the viscous damping of fractons;
Il Nuovo Cimento D 16 1103 (1994).
A. Bunde, H.E. Roman, S. Russ, A. Aharony and A.B. Harris:
Vibrational excitations in percolation: Localization and multifractality;
Phys. Rev. Lett. 69 3189 (1992).
S. Russ:
Reminiscence of the Van-Hove singularity in the specific
heat of disordered systems;
Physica A 191 335 (1992).
A. Bunde, H. E. Roman and S. Russ:
Localization on fractal structures
in: The Extension of the concept of Localized States,
Ed.: J.V. Zanchetta, J.C. Giuntini, A. Pradel, CNRS, Montpellier 1992.
H.E. Roman, S. Russ and A. Bunde:
Comment on "Localization and typical spatial
behavior of fractons" ;
Phys. Rev. Lett. 66 1643 (1991).
S. Russ, H.E. Roman and A. Bunde:
Vibrational density of states of general two-component random mixtures near percolation thresholds;
J. Phys.: Condens. Matter 3 4797 (1991).
S. Russ, H.E. Roman and A. Bunde:
Test of scaling for the vibrational
density of states of percolating systems;
in: PHONONS 89, Ed. by S. Hunklinger, W. Ludwig and G. Weiss (World Scientific, Singapore 1990)
p. 685;
S. Russ and M. Grodzicki:
The calculation of core binding energy
shifts by the self-consistent-charge-Xα-method;
Physica Scripta 42 58 (1990).