| 000 | 03008nam a2200361 a 4500 | ||
|---|---|---|---|
| 005 | 20250930131015.0 | ||
| 008 | 101029s2010 enka 001 0 eng | ||
| 010 | _a2010-000700 | ||
| 020 |
_a9780521763660 (hbk.) : _cRM204.25 |
||
| 020 | _a0521763665 (hbk.) | ||
| 039 | 9 |
_a201011180835 _bzabidah _c201011010953 _dsanusi _c201011010952 _dsanusi _y10-29-2010 _zsanusi |
|
| 040 | _aUKM | ||
| 090 | _aTA357.M584 3 | ||
| 090 |
_aTA357 _b.M584 |
||
| 100 | 1 |
_aMitin, V. V. _q(Vladimir Vasilā¹ch) |
|
| 245 | 1 | 0 |
_aQuantum mechanics for nanostructures / _cVladimir V. Mitin, Dmitry I. Sementsov, Nizami Z. Vagidov |
| 260 |
_aCambridge : _bCambridge University Press, _c2010 |
||
| 300 |
_axv, 431 p. : _bill. ; _c26 cm. |
||
| 500 | _aIncludes index | ||
| 520 | _a'The properties of new nanoscale materials, their fabrication and applications, as well as the operational principles of nanodevices and systems, are solely determined by quantum-mechanical laws and principles.This textbook introduces engineers to quantum mechanics and the world of nanostructures, enabling them to apply the theories to numerous nanostructure problems. The textbook covers the fundamentals of quantum mechanics, including uncertainty relations, the Schrodinger equation, perturbation theory, and tunneling. These are then applied to a quantum dot, the smallest artificial atom, and compared to hydrogen, the smallest atom in nature. Nanoscale objects with higher dimensionality, such as quantum wires and quantum wells, are introduced, as well as nanoscale materials and nanodevices. Numerous examples throughout the text help students to understand the material'--Provided by publisher. | ||
| 520 | _a'The properties of new nanoscale materials, their fabrication and applications, as well as the operational principles of nanodevices and systems, are solely determined by quantum-mechanical laws and principles. This textbook introduces engineers to quantum mechanics and the world of nanostructures, enabling them to apply the theories to numerous nanostructure problems. The book covers the fundamentals of quantum mechanics, including uncertainty relations, the Schrodinger equation, perturbation theory, and tunneling. These are then applied to a quantum dot, the smallest artificial atom, and compared with the case of hydrogen, the smallest atom in nature. Nanoscale objects with higher dimensionality, such as quantum wires and quantum wells, are introduced, as well as nanoscale materials and nanodevices. Numerous examples throughout the text help students to understand the material'--Provided by publisher | ||
| 650 | 0 | _aQuantum theory | |
| 650 | 0 |
_aNanostructured materials _963530 |
|
| 700 | 1 | _aSementsov, Dmitry I. | |
| 700 | 1 | _aVagidov, Nizami Z. | |
| 907 |
_a.b14825077 _b2021-05-28 _c2019-11-12 |
||
| 942 |
_c01 _n0 _kTA357.M584 3 |
||
| 914 | _avtls003443841 | ||
| 990 | _aza | ||
| 991 | _aFakulti Kejuruteraan & Alam Bina | ||
| 998 |
_al _b2010-03-10 _cm _da _feng _genk _y0 _z.b14825077 |
||
| 999 |
_c469224 _d469224 |
||