Электронная библиотека (репозиторий) Томского государственного университета

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Source: Physics letters A. 2017. Vol. 381, № 30. P. 2439-2443
Type: статьи в журналах
Date: 2017
Description: We calculate the Casimir interaction of two freestanding graphene samples under uniaxial strain. Our approach fully takes retardation and dispersion into account and is based on quantum field theoreti ... More
Source: Russian physics journal. 2017. Vol. 59, № 11. P. 1870-1874
Type: статьи в журналах
Date: 2017
Description: Low-energy single-electron dynamics in graphene monolayers and similar nanostructures is described by the Dirac model, being a 2+1 dimensional version of massless QED with the speed of light replaced ... More
Source: ACS Nano. 2017. Vol. 11, № 11. P. 10630-10632
Type: статьи в журналах
Date: 2017
Description: Recently a paper of Klimovskikh et al. was published presenting experimental and theoretical analysis of the graphene/Pb/Pt(111) system. The authors investigate the crystallographic and electronic str ... More
Source: Nano letters. 2016. Vol. 16, № 1. P. 80-87
Type: статьи в журналах
Date: 2016
Description: Topological insulators (TIs) represent a novel quantum state of matter, characterized by edge or surface-states, showing up on the topological character of the bulk wave functions. Allowing electrons ... More
Source: Applied mechanics and materials. 2015. Vol. 698. P. 525-528
Type: статьи в журналах
Date: 2015
Source: IOP Conference Series: Materials Science and Engineering. 2015. Vol. 87. P. 012111 (1-4)
Type: статьи в журналах
Date: 2015
Description: The present paper theoretically studies helium and helion passage through pores in a graphene sheet using classical molecular dynamics. It was found that, within the frame of the suggested model, for ... More
Source: ACS Nano. 2015. Vol. 9. P. 7314-7322
Type: статьи в журналах
Date: 2015
Description: Embedding foreign atoms or molecules in graphene has become the key approach in its functionalization and is intensively used for tuning its structural and electronic properties. Here, we present an e ... More
Source: Nanoscale research letters. 2015. Vol. 10. P. 421 (1-6)
Type: статьи в журналах
Date: 2015
Description: Low-temperature (~1073 K) formation of graphene was performed on Si substrates by using an ultrathin (2 nm) Ni
Source: Nano letters. 2015. Vol. 15, № 4. P. 2396-2401
Type: статьи в журналах
Date: 2015
Description: With the discovery and first characterization of graphene, its potential for spintronic applications was recognized immediately. Since then, an active field of research has developed trying to overcom ... More
Source: Scientific Reports [Еlectronic resource]. 2014. Vol. 4. P. 6900 (1-4)
Type: статьи в журналах
Date: 2014

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