Publications: 15. Alexei Chepelianskii works
(Lyzhnia Rossii, Akademgorodok)
Talks
Video talks of Alexei Chepelianskii
(here)
Publications
2021
1. A.D.Chepelianskii
"Repulsive trap for two electrons in a magnetic field",
Phys. Rev. B v.63 (2001) p. 165310 (cond-mat/0011015)
(here)
2001
16.2. A.D.Chepelianskii and D.L.Shepelyansky,
``Dynamical turbulent flow on the Galton board with
friction'', Phys. Rev. Lett. v.87 (2001) p. 034101
(cond-mat/0101006)
[ this is the first paper of Millennium III
(1 Jan 2001 00:00:22 GMT)];
extended version (cond-mat/0103515)
(here)
16.3. A.D.Chepelianskii and
D.L.Shepelyansky, "Quantum chaos in quantum networks",
unpublished,
poster at Quantum Computers and Quantum Chaos (Como, Italy),
June 28-30 (2001)
(here) and (here)
2002
16.4. A.D.Chepelianskii and D.L.Shepelyansky,
"Schrodinger cat animated on a quantum computer" (quant-ph/0202113) or
"Simulation of chaos-assisted tunneling in a semiclassical regime
on existing quantum computers" Phys. Rev. A v.66 (2002) p.054301
(here)
(original color version (here) )
2003
16.5. J.W.Lee, A.D.Chepelianskii and D.L.Shepelyansky,
``Treatment of sound on quantum computers'',
(quant-ph/0309018) (here) ,
Proceedings of ERATO Conference on Quantum Information Science 2004,
Tokyo, pp. 91-92 (2004);
and "Applications of quantum chaos to realistic quantum computations
and sound treatment on quantum computers", in
``Noise and information in nanoelectronics, sensors, and standards II''
Proceedings of SPIE Eds. J.M.Smulko, Y.Blanter, M.I.Dykman,
L.B.Kish, v.5472, pp.246-251 (2004)
(here) ;
(color here)
2004
16.6. A.D.Chepelianskii and
D.L.Shepelyansky, "Directing transport by polarized radiation
in the presence of chaos and dissipation",
Phys. Rev. B v.71, 052508 (2005) (cond-mat/0402675)
(here)
2005
16.7. A.D.Chepelianskii,
"Directed transport born from chaos
in asymmetric antidot structures",
Eur. Phys. J. B v.52, pp.389-396 (2006) (cond-mat/0509679; f001)
(here)
2006
16.8. A.D.Chepelianskii
and D.L.Shepelyansky, ``Magnetization of ballistic quantum dots
induced by a linear-polarized microwave field'',
Eur. Phys. J. B v.55, p.261-270 (2007)
(here) ;
(cond-mat/0610695
(here) )
2007
16.9. A.D.Chepelianskii,
M.V.Entin, L.I.Magarill and D.L.Shepelyansky,
``Photogalvanic current in artificial asymmetric nanostructures'',
Eur. Phys. J. B v.56, p.323-333 (2007)
(here) ;
(cond-mat/0701128
(here) )
(also "Theory of photogalvanic effect
in asymmetric nanostructures arrays",
Physica E v.40, pp.1264-1266 (2008)
(here) )
16.10. A.D.Chepelianskii,
F.Chevy and E.Raphael,
"On capillary-gravity waves generated
by a slow moving object" (arXiv:0704.3990; f002)
(here) ;
"Capillary-gravity waves generated by a slow moving object",
Phys. Rev. Lett. v.100, p.074504 (2008) (dobav 2yu bukvu)
(
highlight link )
16.11. A.D.Chepelianskii, A.S.Pikovsky
and D.L.Shepelyansky, "Synchnonization, zero-resistance states
and rotating Wigner crystal",
Eur. Phys. J. B v.60, p. 225-229 (2007)
(here)
(arxiv:0707.2694[cond-mat]
(here) )
16.12. L.Angers, A.D.Chepelianskii,
R.Deblock, B.Reulet and H.Bouchiat,
"Mesoscopic photovoltaic effect in GaAs/Ga_(1-x)Al_xAs
Aharonov-Bohm rings",
Phys. Rev. B v.76, p.075331 (2007) (f003)
(here)
16.13. A.D.Chepelianskii,
F.Mohammad-Rafiee, E.Trizac and E.Raphael,
"On the effective charge of hydrophobic polyelectrolytes",
J.Phys. Chem. B v.113(12), p.3743 (2009)
(arXiv:0710.2471[cond-mat]; f004)
(here)
2008
16.14. A.D.Chepelianskii, M.V.Entin, L.I.Magarill
and D.L.Shepelyansky,
"Ratchet transport of interacting particles",
Phys. Rev. E v.78, p.041127 (2008)
(here) ;
(arxiv:0808.2970[cond-mat]
(here) )
16.15. M.Ferrier, A.Chepelianskii, S.Gueron,
and H.Bouchiat,
"Disorder induced transverse delocalisation in ropes of carbon nanotubes",
Phys. Rev B v.77, p.195420 (2008)
(arXiv:0802.2326[cond-mat]; f005)
(here)
16.16. A. Chepelianskii, P.Delplace, A.Shailos,
A.Kasumov, R.Deblock, M.Monteverde, C. Ojeda-Aristizabal,
M.Ferrier, S.Gueron, H.Bouchiat,
"Phonon assisted dynamical Coulomb blockade
in a thin suspended graphite sheet",
Phys. Rev. B v.79, 235418 (2009)
(arXiv:0807.1961[cond-mat]; f006)
(here) )
16.17. A. Chepelianskii, S.Gueron, F.Pierre, A.Cavanna,
B.Etienne, H.Bouchiat,
"Magnetic field anti-symmetry of photovoltaic voltage
in evanescent microwave fields",
Phys. Rev. B v.79, p.195309 (2009)
(arXiv:0809.4948[cond-mat]; f007)
(here)
16.18. A. Chepelianskii and H.Bouchiat,
"Hall detection of time-reversal symmetry breaking under AC electric driving",
Phys. Rev. Lett. v.102, p.086810 (2009)
(arXiv:0811.4108[cond-mat]; f008)
(here)
2009
16.19. A.D.Chepelianskii and D.L.Shepelyansky,
"Microwave stabilization of edge transport and zero-resistance states",
Phys. Rev. B v.80, p.241308(R) (2009)
(here) ;
(arxiv:0905.0593[cond-mat]
(here) )
16.20. A.D.Chepelianskii, F.Chiodi, M.Ferrier, S.Gueron,
E.Rouviere and H.Bouchiat,
"Contactless photoconductivity measurements on (Si) nanowires",
Appl. Phys. Lett. v.96, p.052118 (2010)
(arXiv:0909.4401[cond-mat]; f009)
(here)
16.21. A.D.Chepelianskii, M. Schindler, F. Chevy, and E. Raphael,
"Self-consistent theory of capillary-wave generation by small moving objects",
Phys. Rev. E v.81, p.016306 (2010)
(arXiv:0910.1775[physics]; f010)
(here)
2010
16.22. L.Ermann, A.D.Chepelianskii and D.L.Shepelyansky,
"Fractal Weyl law for Linux Kernel Architecture",
Eur. Phys. J. B v.79, p.115-120 (2011)
(here)
(arxiv:1005.1395[cs.CE]
(here) ,
updated arxiv:1005.1395v3
(here) )
16.23. F.Closa, A.D.Chepelianskii, and E. Raphael,
"Capillary-gravity waves generated by a sudden object motion",
Phys. Fluids v.22, p.052107 (2010)
(arXiv:1001.4715[physics]; f011)
(here)
16.24. A.D.Chepelianskii,
"Towards physical laws for software architecture",
(arXiv:1003.5455v1 [cs.SE]; f012)
(here)
16.25. A.D.Chepelianskii,
"Non equilibrium transport and chirality in meoscopic
physics", thesis Universite d'Orsay, Paris 11, September 24 (2010)
(here)
2011
16.26. L.Ermann, A.D.Chepelianskii
and D.L.Shepelyansky,
"Toward two-dimensional search engines",
J. Phys. A: Math. Theor. v.45, p.275101 (2012)
(here)
(arxiv:1106.6215[cs.IR]
(here) ;
v2 (here) )
16.27. A.D.Chepelianskii,
D.Klinov, A.Kasumov, S.Gueron, O.Pietrement,
S.Lyonnais and H.Bouchiat,
"Conduction of DNA molecules attached to
a disconnected array of metallic Ga nanoparticles",
New J. Phys. v.13, p.063046 (2011)
(here)
(arXiv:1011.0383 [cond-mat.mes-hall]; f013)
(here) );
[related S.Lyonnais, O.Pietrement, A.Chepelianksii,
S.Gueron, L.Lacroix, E. Le Cam and J.-L.Mergny,
"Functionalization of DNA G-Wires for
patterning and nanofabrication",
Nucleic Acids Symposium No.52, p. 689
(doi:10.1093/nass/nrn348),
Oxford Univ. Press. (2008)]
16.28. D.Konstantinov, A.D.Chepelianskii,
and K.Kono,
"Resonant photovoltaic effect in surface state electrons
on liquid helium",
(arXiv:1101.5667 [cond-mat.mes-hall]; f014)
(here) ;
Jour. Phys. Soc. Japan v.81, p.093601 (2012)
(here) ;
JPSJ highlight (here)
16.29. A.D. Chepelianskii, J. Laidet, I. Farrer,
H.E. Beere, D.A. Ritchie, H. Bouchiat
"Enhancement of edge channel transport by a low frequency
irradiation",
Phys. Rev. B v.86, p.205108 (2012)
(arXiv:1102.2314[cond-mat.mes-hall]; f015)
(here) ;
(arXiv:1102.2314v2)
(here)
16.30. A.D. Chepelianskii, F.Closa, E.Raphael, E.Trizac,
"Strong screening in the plum pudding model",
Europhys. Lett. v.94, p.68010 (2011)
(arXiv:1104.3263[cond-mat.soft]; f016)
(here)
16.31. A.D. Chepelianskii,
"Non linear transport in drift-diffusion equations under magnetic field",
submitted to Europhys. Lett. October (2011)
(arXiv:1110.2033[cond-mat.mes-hall]; f017)
(here)
2012
16.32. K.M.Frahm, A.D.Chepelianskii
and D.L.Shepelyansky,
"PageRank of integers",
J. Phys. A: Math. Theor. v.45, p.405101 (2012)
(here)
(arXiv:1205.6343[cs.IR]
(here) )
16.33. A.D. Chepelianskii, D. Klinov, A. Kasumov,
S. Gueron, O. Pietrement, S. Lyonnais, H. Bouchiat,
"Long range electronic tranport in DNA molecules deposited across
a disconnected array of metallic nanoparticles",
submitted September 13 (2012)
(arXiv:1209.2834[cond-mat.mes-hall]; f018)
(here) ;
Comptes Rendus Physique v.13(9-10), p.967-992 (2012)
(Prix de l'Academie des Sciences DOI:10.1016/j.crhy.2012.10.007
(here) for personal use only)
16.34. F.Chevy, A.D. Chepelianskii, D.Quere, E.Raphel,
"Liquid Hertz Contact: softness of weakly deformed drops on non-wetting substrates",
submitted September (2012)
(arXiv:1209.5377[cond-mat.soft]; f019)
(here)
16.35. L.Ermann, A.D.Chepelianskii and D.L.Shepelyansky,
"Symmetry breaking for ratchet transport in presence of interactions and magnetic field",
Phys. Rev. E v.87, p.022912 (2013)
(here)
(arXiv:1211.4411[cond-mat.mes-hall]
(here) )
16.36. J.Wang, A.Chepelianskii, F.Gao, N.C.Greenham,
"Control of exciton spin statistics through spin
polarization in organic optoelectronic devices",
Nature Communications 3:1191 doi:10.1038/ncomms2194 (2012) (paper f020)
(here)
16.37. A.D. Chepelianskii,
J. Laidet, I. Farrer, D. A. Ritchie, K. Kono, H. Bouchiat
"Quantized escape and formation of edge channels at high Landau
levels", published as "Quantized escape and formation of edge
channels at high Landau levels and edge transport mediated
zero-differential resistance states"
Phys. Rev. B v.90, p.045301 (2014)
(arXiv:1212.2026[cond-mat.mes-hall]; paper f021)
(here)
16.38. F. Closa, E. Raphael, A. D. Chepelianskii,
"Transport properties of overheated electrons trapped on a Helium surface",
submitted Phys. Rev. E 26 Dec 2012
(arXiv:1212.6277[cond-mat.mes-hall]; paper f022)
(here) ;
Eur. Phys. J. B v.87, p.190 (2014)
2013
16.39. O.V.Zhirov, A.D.Chepelianskii
and D.L.Shepelyansky,
"Synchronization theory of microwave induced zero-resistance states",
submitted Phys. Rev. B 12 Feb 2013
(arXiv:1302.2778 [cond-mat.mes-hall]
(here) )
16.40. A. D. Chepelianskii, J.Wand and R.H.Friend,
"Probing the localization length of photo-generated charges in organic materials",
(arXiv:1312.6245[cond-mat.mes-hall]; paper f023)
(here) ;
"Low-temperature transport properties of photogenerated charges
in organic materials", Phys. Rev. Lett. v.112, p.126802 (2014)
2014
16.41. S.L.Bayliss, A.D.Chepelianskii,
A.Sepe, B.J.Walker, B.Egrler, M.J.Bruzek, J.E.Anthony and
N.C.Greenham,
"Geminate and nongeminate recombination of triplet excitons
formed by singlet fission", Phys. Rev. Lett. v.90, p.045301 (2014),
paper f024
(arXiv:14xx.xxxx (here) )
16.42. S. Athanasopoulos, N.C. Greenham,
R.H. Friend and A.D. Chepelianskii,
"Field-enhanced recombination at low temperatures in an organic photovoltaic blend",
(arXiv:1410.2524[cond-mat.mes-hall]; paper f025)
(here)
16.43. F.Chiodi, A.D Chepelianskii,
C.Gardes, G.Hallais, D.Bouchier, D.Debarre,
"Laser doping for ohmic contacts in n-type Ge",
Appl. Phys. lett. v.105, p.242101 (2014)
(arXiv:1411.4325[cond-mat.mtrl-sci]; paper f026)
(here)
2015
16.44 A.D. Chepelianskii, M.Watanabe,
K.Nasyedkin, K.Kono, D.Konstantinov,
"An incompressible state of a photo-excited electron gas",
Nature Communications v.6 p.7210 (2015)
(here)
(arXiv:1504.04295[cond-mat.mes-hall]; paper f027)
(here)
16.46. S.L.Bayliss, N.C.Greenham, R.H.Friend,
H.Bouchiat, A.D Chepelianskii,
"Spin-dependent recombination probed through
the dielectric polarizability",
Nature Communications v.6, p.8534 (2015)
(paper f028)
(here)
16.47. R.Palovics, B.Daroczy, A.Benczur,
J.Pap, L.Ermann, S.Phan, A.D.Chepelianskii and D.L.Shepelyansky,
"Statistical analysis of NOMAO customer votes for spots of France ",
Eur. Phys. J. B v.88, p.194 (2015)
(here)
(arXiv:1504.03002 [physics.soc-ph]
(here) )
16.48. S.L.Bayliss, K.J.Throly, J.E.Anthony,
H.Bouchiat, N.C.Greenham, A.D Chepelianskii,
"Localization length scales of triple excitons in singlet fission meterials",
Phys. Rev. B v.92, p.115432 (2015)
(paper f029)
(here)
2016
16.49. Chuan Li, S.Gueron, A.Chepelianskii,
H.Bouchiat,
"Full range of proximity effect probed with
superconductor/graphene/superconductor junctions", (paper f030)
(arXiv:1602.01289 [cond-mat.mess-hall]
(here) )
16.50. S.L.Bayliss, L.R.Weiss, A.Rao, R.H.Friend,
A.D.Chepelianskii, N.C.Greenham,
"Spin signatures of exchange-coupled triplet pairs formed by singlet fission",
Phys. Rev. B v.94, p.045204 (2016)
(paper f031)
(here)
16.51. A.Murani, A.Kasumov, S.Sengupta, Yu.A.Kasumov,
V.T.Volkov, I.I.Khodos, F.Brisset, R.Delagrange,
A.Chepelianskii, R.Deblock, H.Bouchiat, S.Gueron,
"Ballistic edge states in Bismuth nanowires revealed by SQUID interferometry",
arXiv:1609.04848 (2016) (paper f032)
(here)
16.52. A.Murani, A.Chepelianskii, S.Gueron, H.Bouchiat,
"Andreev spectrum with high spin-orbit interactions:
revealing spin splitting and topologically protected crossings",
arXiv:1611.04848 (2016) (paper f033)
(here)