Ab initio refining of quasibreathers in graphane

G.M. Chechin, I.P. Lobzenko show affiliations and emails
Received  10 November 2014; Accepted  18 November 2014
Citation: G.M. Chechin, I.P. Lobzenko. Ab initio refining of quasibreathers in graphane. Lett. Mater., 2014, 4(4) 226-229
BibTex   https://doi.org/10.22226/2410-3535-2014-4-226-229

Abstract

A method for refining the profile of quasibreathers in the space of all initial atoms displacements is developed in the framework of the density functional theory. The method is exemplified by the procedure of constructing the discrete breathers in graphane.A method for refining the profile of quasibreathers in the space of all initial atoms displacements is developed in the framework of the density functional theory. The method is exemplified by the procedure of constructing the discrete breathers in graphane.

References (26)

1. 1. A.J. Sievers, S. Takeno. Physical Review Letters. 61, 970(1988).
2. S. Flach, A.V. Gorbach. Physics Reports. 467, 1 (2008).
3. R. S. MacKay, S. Aubry. Nonlinearity. 7, 1623 (1994).
4. G. James. Comptes rendus de l'Académie des SciencesParis. 332, 581 (2001).
5. James. Journal of Nonlinear Science. 13, 27 (2003).
6. G.M. Chechin, G. S. Bezuglova. Journal of Sound andVibration. 322, 490 (2009).
7. G.M. Chechin, G. S. Dzhelauhova, E.A. Mehonoshina.Physical Review. E74, 036608 (2006).
8. J.L. Marin and S. Aubry. Nonlinearity. 9, 1501 (1996).
9. S. Flach. In energy Localisation and Transfer. WorldScientific, Singapore. (2004) 1 p.
10. G.M. Chechin, S.V. Dmitriev, I.P. Lobzenko, D. S. Ryabov.Physical Review. B90, 045432 (2014).
11. P. Hohenberg, W. Kohn. Physical Review. 136, B864(1964).
12. W. Kohn, L.J. Sham. Physical Review. 140, A1133 (1965).
13. W. Kohn. Nobel Lecture. Reviews of Modern Physics.71(5), 1253 (1999).
14. X. Gonze, et al. Computer Physics Communications. 180, 2582 (2009).
15. www.abinit.org.
16. A.R. Bishop, A. Bussmann-Holder, S. Kamba, M. Maglione. Physical Review. B81, 064106 (2010).
17. J. Macutkevic, J. Banys, A. Bussmann-Holder, A.R. Bishop.Physical Review. B83, 184301 (2011).
18. B. Liu, J.A. Baimova, S.V. Dmitriev, X. Wang, H. Zhu, K. Zhou. Journal of Physica D: Applied Physics. 46, 305302 (2013).
19. J.A. Nelder, R. Mead. Computer Journal. 7, 308 (1965).
20. S. V Dmitriev. Letters on Materials. 1(2), 78 (2011).
21. A.A. Kistanov, S.V. Dmitriev, A.P. Chetverikov, M.G. Velarde. Eur. Phys.J. B87, 211 (2014).
22. A.A. Kistanov, S.V. Dmitriev, A. S. Semenov, V.I. Dubinko, D.A. Terent’ev. Technical Physics Letters.40(8), 657 (2014).
23. A.A. Kistanov, R.T. Murzaev, S.V. Dmitriev, V.I. Dubinko, V.V. Khizhnyakov. JETP Lett. 99(6), 353 (2014).
24. J.A. Baimova, S.V. Dmitriev, A.A. Kistanov, A.I. Potekaev.Russian Physics Journal. 56(2), 180 (2013).
25. E.A. Korznikova, J.A. Baimova, S.V. Dmitriev. Europhys.Lett. 102, 6 (2013) 60004 p.
26. L.Z. Khadeeva, S.V. Dmitriev, Y. S. Kivshar. JETP Lett. 94, 7 (2011) p. 539-543.

Cited by (7)

1.
I. P. Lobzenko, G. M. Chechin, G. S. Bezuglova, Yu. A. Baimova, E. A. Korznikova, S. V. Dmitriev. Phys. Solid State. 58(3), 633 (2016). Crossref
2.
E. A. Korznikova, S. Yu. Fomin, E. G. Soboleva, S. V. Dmitriev. Jetp Lett. 103(4), 277 (2016). Crossref
3.
E. Barani, Elena A. Korznikova, Alexander P. Chetverikov, K. Zhou, Sergey V. Dmitriev. Physics Letters A. 381(41), 3553 (2017). Crossref
4.
Sergey V. Dmitriev, Julia A. Baimova, Elena A. Korznikova, Alexander P. Chetverikov. Understanding Complex Systems: Nonlinear Systems, Vol. 2, Chapter 7, p.175 (2018). Crossref
5.
I. Evazzade, M. Roknabadi, M. Behdani, F. Moosavi, D. Xiong, K. Zhou, Sergey V. Dmitriev. Eur. Phys. J. B. 91(7) (2018). Crossref
6.
K. A. Krylova, L. R. Safina. J. Phys.: Conf. Ser. 1435(1), 012064 (2020). Crossref
7.
P. Zakharov, I. Lucenko, A. Eremin, M. Starostenkov, R. Vdovin. J. Phys.: Conf. Ser. 1353(1), 012061 (2019). Crossref

Similar papers