Devils staircase and the absence of chaos in the dc- and ac-driven overdamped Frenkel-Kontorova model
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2017
Autori
Sokolović, I.Mali, Petar
Odavić, Jovan
Radošević, Slobodan M.
Medvedeva, S. Yu.
Botha, Andre E.
Shukrinov, Yury M.
Tekić, Jasmina
Članak u časopisu (Objavljena verzija)
Metapodaci
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The devils staircase structure arising from the complete mode locking of an entirely nonchaotic system, the overdamped dc+ac driven Frenkel-Kontorova model with deformable substrate potential, was observed. Even though no chaos was found, a hierarchical ordering of the Shapiro steps was made possible through the use of a previously introduced continued fraction formula. The absence of chaos, deduced here from Lyapunov exponent analyses, can be attributed to the overdamped character and the Middleton no-passing rule. A comparative analysis of a one-dimensional stack of Josephson junctions confirmed the disappearance of chaos with increasing dissipation. Other common dynamic features were also identified through this comparison. A detailed analysis of the amplitude dependence of the Shapiro steps revealed that only for the case of a purely sinusoidal substrate potential did the relative sizes of the steps follow a Farey sequence. For nonsinusoidal (deformed) potentials, the symmetry of t...he Stern-Brocot tree, depicting all members of particular Farey sequence, was seen to be increasingly broken, with certain steps being more prominent and their relative sizes not following the Farey rule.
Izvor:
Physical Review E, 2017, 96, 2Finansiranje / projekti:
- Uticaj elementarnih ekscitacija i konformacija na fizička svojstva novih materijala baziranih na jako korelisanim niskodimenzionalnim sistemima (RS-171009)
- Fotonika mikro i nano strukturnih materijala (RS-45010)
- Provincial Secretariat for High Education and Scientific Research of Vojvodina [APV 114-451-2201], RFBR [15-290-1217]
DOI: 10.1103/PhysRevE.96.022210
ISSN: 2470-0045; 2470-0053
PubMed: 28950628
WoS: 000408118100003
Scopus: 2-s2.0-85028731109
Institucija/grupa
VinčaTY - JOUR AU - Sokolović, I. AU - Mali, Petar AU - Odavić, Jovan AU - Radošević, Slobodan M. AU - Medvedeva, S. Yu. AU - Botha, Andre E. AU - Shukrinov, Yury M. AU - Tekić, Jasmina PY - 2017 UR - https://vinar.vin.bg.ac.rs/handle/123456789/1692 AB - The devils staircase structure arising from the complete mode locking of an entirely nonchaotic system, the overdamped dc+ac driven Frenkel-Kontorova model with deformable substrate potential, was observed. Even though no chaos was found, a hierarchical ordering of the Shapiro steps was made possible through the use of a previously introduced continued fraction formula. The absence of chaos, deduced here from Lyapunov exponent analyses, can be attributed to the overdamped character and the Middleton no-passing rule. A comparative analysis of a one-dimensional stack of Josephson junctions confirmed the disappearance of chaos with increasing dissipation. Other common dynamic features were also identified through this comparison. A detailed analysis of the amplitude dependence of the Shapiro steps revealed that only for the case of a purely sinusoidal substrate potential did the relative sizes of the steps follow a Farey sequence. For nonsinusoidal (deformed) potentials, the symmetry of the Stern-Brocot tree, depicting all members of particular Farey sequence, was seen to be increasingly broken, with certain steps being more prominent and their relative sizes not following the Farey rule. T2 - Physical Review E T1 - Devils staircase and the absence of chaos in the dc- and ac-driven overdamped Frenkel-Kontorova model VL - 96 IS - 2 DO - 10.1103/PhysRevE.96.022210 ER -
@article{ author = "Sokolović, I. and Mali, Petar and Odavić, Jovan and Radošević, Slobodan M. and Medvedeva, S. Yu. and Botha, Andre E. and Shukrinov, Yury M. and Tekić, Jasmina", year = "2017", abstract = "The devils staircase structure arising from the complete mode locking of an entirely nonchaotic system, the overdamped dc+ac driven Frenkel-Kontorova model with deformable substrate potential, was observed. Even though no chaos was found, a hierarchical ordering of the Shapiro steps was made possible through the use of a previously introduced continued fraction formula. The absence of chaos, deduced here from Lyapunov exponent analyses, can be attributed to the overdamped character and the Middleton no-passing rule. A comparative analysis of a one-dimensional stack of Josephson junctions confirmed the disappearance of chaos with increasing dissipation. Other common dynamic features were also identified through this comparison. A detailed analysis of the amplitude dependence of the Shapiro steps revealed that only for the case of a purely sinusoidal substrate potential did the relative sizes of the steps follow a Farey sequence. For nonsinusoidal (deformed) potentials, the symmetry of the Stern-Brocot tree, depicting all members of particular Farey sequence, was seen to be increasingly broken, with certain steps being more prominent and their relative sizes not following the Farey rule.", journal = "Physical Review E", title = "Devils staircase and the absence of chaos in the dc- and ac-driven overdamped Frenkel-Kontorova model", volume = "96", number = "2", doi = "10.1103/PhysRevE.96.022210" }
Sokolović, I., Mali, P., Odavić, J., Radošević, S. M., Medvedeva, S. Yu., Botha, A. E., Shukrinov, Y. M.,& Tekić, J.. (2017). Devils staircase and the absence of chaos in the dc- and ac-driven overdamped Frenkel-Kontorova model. in Physical Review E, 96(2). https://doi.org/10.1103/PhysRevE.96.022210
Sokolović I, Mali P, Odavić J, Radošević SM, Medvedeva SY, Botha AE, Shukrinov YM, Tekić J. Devils staircase and the absence of chaos in the dc- and ac-driven overdamped Frenkel-Kontorova model. in Physical Review E. 2017;96(2). doi:10.1103/PhysRevE.96.022210 .
Sokolović, I., Mali, Petar, Odavić, Jovan, Radošević, Slobodan M., Medvedeva, S. Yu., Botha, Andre E., Shukrinov, Yury M., Tekić, Jasmina, "Devils staircase and the absence of chaos in the dc- and ac-driven overdamped Frenkel-Kontorova model" in Physical Review E, 96, no. 2 (2017), https://doi.org/10.1103/PhysRevE.96.022210 . .