TY  - BOOK
AU  - Janssen,M.
TI  - Fluctuations and localization in mesoscopic electron systems
T2  - World Scientific lecture notes in physics
SN  - 9789812798923
AV  - QC6.4.F58 J36 2001eb
U1  - 530.4/1 22
PY  - 2001///
CY  - Singapore, River Edge, N.J.
PB  - World Scientific
KW  - Fluctuations (Physics)
KW  - Quantum theory
KW  - Mesoscopic phenomena (Physics)
KW  - Fluctuations (Physique)
KW  - Théorie quantique
KW  - Systèmes mésoscopiques
KW  - SCIENCE
KW  - Physics
KW  - Condensed Matter
KW  - bisacsh
KW  - fast
KW  - Física do estado sólido
KW  - larpcal
N1  - Includes bibliographical references (pages 191-198) and index; Ch. 1. Introduction -- ch. 2. Experimental facts. 2.1. Aharonov-Bohm effect. 2.2. Conductance fluctuations. 2.3. Localization. 2.4. Quantum Hall effects. 2.5. Quantum dots -- ch. 3. Basic theoretical models and tools. 3.1. Relevant scales and observables. 3.2. The independent electron approximation. 3.3. Model Hamiltonian and Green's function. 3.4. Disorder diagrams and field theory. 3.5. Scattering matrix modeling. 3.6. Fokker-Planck equations -- ch. 4. Idealized systems. 4.1. Localized systems. 4.2. Delocalized systems. 4.3. Random matrices and symmetry -- ch. 5. Towards realistic systems. 5.1. Concept of scaling. 5.2. Distributions and typical values. 5.3. Corrections at finite conductances. 5.4. Quasi-one-dimensional systems -- ch. 6. The localization-delocalization transition. 6.1. Finite size scaling. 6.2. Real-space renormalization. 6.3. Multifractality of critical states. 6.4. Point-contact conductance. 6.5. Order parameter and scaling variable
N2  - The quantum phenomena of tunneling and interference show up not only in the microscopic world of atoms and molecules, but also in cold materials of the real world, such as metals and semiconductors. Though not fully macroscopic, such mesoscopic systems contain a huge number of particles, and the holistic nature of quantum mechanics becomes evident already in simple electronic measurements. The measured quantity fluctuates as a function of applied fields in an unpredictable, yet reproducible way. Despite this fingerprint character of fluctuations, their statistical properties are universal, i.e. they are the same for a large class of different mesoscopic systems, having only very few parameters in common. Localization of electrons is a dramatic effect of destructive interference. As a consequence a metal can become an insulator while reaching mesoscopic scales. Based on elementary quantum and statistical physics, this text introduces the theory of mesoscopic electron systems. It focuses on universal characteristics of fluctuations and on the localization mechanism. General concepts and methods are stressed, such as scaling laws for distribution functions. Tools from condensed matter theory are used flexibly. Involved technical details are skipped so as to present a broad overview of the field, including topics like quantum dots, the quantum Hall effect and a number of the most recent developments
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