| 000 | 01993nam a22003135i 4500 | ||
|---|---|---|---|
| 001 | 91902 | ||
| 005 | 20231109152505.0 | ||
| 010 |
_a978-3-030-67917-0 _dcompra |
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| 090 | _a91902 | ||
| 100 | _a20231023d2021 k||y0pory50 ba | ||
| 101 | _aeng | ||
| 102 | _aCH | ||
| 200 |
_aStochastic approaches to electron transport in micro and nanostructures _bDocumento eletrónico _fby Mihail Nedjalkov, Ivan Dimov, Siegfried Selberherr |
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| 210 |
_aCham _cSpringer International Publishing _cBirkhäuser _d2021 |
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| 215 |
_aXVI, 214 p. _cil. |
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| 225 | _aModeling and Simulation in Science Engineering and Technology | ||
| 303 | _aThe book serves as a synergistic link between the development of mathematical models and the emergence of stochastic (Monte Carlo) methods applied for the simulation of current transport in electronic devices. Regarding the models, the historical evolution path, beginning from the classical charge carrier transport models for microelectronics to current quantum-based nanoelectronics, is explicatively followed. Accordingly, the solution methods are elucidated from the early phenomenological single particle algorithms applicable for stationary homogeneous physical conditions up to the complex algorithms required for quantum transport, based on particle generation and annihilation. The book fills the gap between monographs focusing on the development of the theory and the physical aspects of models, their application, and their solution methods and monographs dealing with the purely theoretical approaches for finding stochastic solutions of Fredholm integral equations. | ||
| 606 | _aMathematics | ||
| 606 | _aMathematical physics | ||
| 606 | _aComputer science | ||
| 680 | _aT57-57.97 | ||
| 700 |
_aNedjalkov _bMihail _970408 |
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| 701 |
_aDimov _bIvan _4070 _970409 |
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| 701 |
_aSelberherr _bSiegfried _4070 _970410 |
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| 801 |
_aPT _gRPC |
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| 856 | _uhttps://doi.org/10.1007/978-3-030-67917-0 | ||
| 942 |
_2lcc _cF _n0 |
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