| Form of presentation | Articles in international journals and collections |
| Year of publication | 2020 |
| Язык | английский |
|
Tagirov Lenar Rafgatovich, author
Useinov Niazbek Khamzovich, author
|
| Bibliographic description in the original language |
Useinov, A. Mathematical description data: Spin-resolved electron transport in nanoscale heterojunctions: Theory and applications [Text] / Artur Useinov, Hsiu-Hau Lin, Niazbeck Useinov, Lenar Tagirov // Data in Brief 2020. V. 32, P. 106233 (11pp). |
| Annotation |
This study demonstrates a mathematical description of a point-like nanocontact model, which is developed to simulate electron transport through a nanoconstriction between magnetic or non-magnetic contact sides. The theory represents a solution to the quasi-(semi)-classical transport equations for charge current, which takes into account second-order derivatives of the related quasi-classical Green functions along the transport direction. The theoretical approach also enables the creation of an I-V model for a heterojunction with embedded objects, where the initial condition, a conduction band minimum profile of the system, is well-defined. The presented spin-resolved current approach covers a complete range of the scales including quantum, ballistic, quasi-ballistic (intermediate), and diffusive classical transport conditions, with a smooth transition between them without residual terms or any empirical variables. The main benefit of the mathematical solution is its novel methodology, which is an alternative candidate to the well-known Boltzmann technique. |
| Keywords |
Ballistic and diffusive transport model Point-like contact model Spin-resolved contact conductance Heterojunctions I-V modeling |
| The name of the journal |
Data in Brief
|
| URL |
https://www.sciencedirect.com/science/article/pii/S2352340920311276?via%3Dihub |
| Please use this ID to quote from or refer to the card |
https://repository.kpfu.ru/eng/?p_id=234938&p_lang=2 |
Full metadata record  |
| Field DC |
Value |
Language |
| dc.contributor.author |
Tagirov Lenar Rafgatovich |
ru_RU |
| dc.contributor.author |
Useinov Niazbek Khamzovich |
ru_RU |
| dc.date.accessioned |
2020-01-01T00:00:00Z |
ru_RU |
| dc.date.available |
2020-01-01T00:00:00Z |
ru_RU |
| dc.date.issued |
2020 |
ru_RU |
| dc.identifier.citation |
Useinov, A. Mathematical description data: Spin-resolved electron transport in nanoscale heterojunctions: Theory and applications [Text] / Artur Useinov, Hsiu-Hau Lin, Niazbeck Useinov, Lenar Tagirov // Data in Brief 2020. V. 32, P. 106233 (11pp). |
ru_RU |
| dc.identifier.uri |
https://repository.kpfu.ru/eng/?p_id=234938&p_lang=2 |
ru_RU |
| dc.description.abstract |
Data in Brief |
ru_RU |
| dc.description.abstract |
This study demonstrates a mathematical description of a point-like nanocontact model, which is developed to simulate electron transport through a nanoconstriction between magnetic or non-magnetic contact sides. The theory represents a solution to the quasi-(semi)-classical transport equations for charge current, which takes into account second-order derivatives of the related quasi-classical Green functions along the transport direction. The theoretical approach also enables the creation of an I-V model for a heterojunction with embedded objects, where the initial condition, a conduction band minimum profile of the system, is well-defined. The presented spin-resolved current approach covers a complete range of the scales including quantum, ballistic, quasi-ballistic (intermediate), and diffusive classical transport conditions, with a smooth transition between them without residual terms or any empirical variables. The main benefit of the mathematical solution is its novel methodology, which is an alternative candidate to the well-known Boltzmann technique. |
ru_RU |
| dc.language.iso |
ru |
ru_RU |
| dc.subject |
|
ru_RU |
| dc.title |
Mathematical description data: Spin-resolved electron transport in nanoscale heterojunctions: Theory and applications |
ru_RU |
| dc.type |
Articles in international journals and collections |
ru_RU |
|
RUS 
中文 
ES 
Sitemap
