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010   $a9786611843212
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035   $a(EBL)482196
035   $a(OCoLC)297118399
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100   $a20160820h20012001  uy             0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aMesoscopic systems $efundamentals and applications /$fYoshimasa Murayama
210  1$aWeinheim, [Germany] :$cWiley-VCH,$d2001.
210  4$dİ2001
215   $a1 online resource (256 p.)
300   $aDescription based upon print version of record.
311   $a3-527-29376-0 
320   $aIncludes bibliographical references at the end of each chapters and indexes.
327   $aMesoscopic Systems Fundamentals and Applications; Contents; 1 Introduction; 1.1 Mesoscopic Systems; 1.2 Nanoscale Structures; 1.3 Electronics; References; 2 Quantum versus Classical Physics; 2.1 Quantum Effects; 2.2 Quantum Fluctuation; 2.3 Particle-Wave Duality; 2.4 Measurement of an Ensemble of Particles; 2.5 Coherence; 2.6 Visibility; 2.7 Coherence versus Incoherence; References; 3 Quantization; 3.1 Schro?dinger Equation and Discrete Energies; 3.2 Bloch Theorem; 3.3 Effective Mass; References; 4 Dimensionality; 4.1 DOS; 4.2 Dimensionality of a Landau Electron; References; 5 Junctions
327   $a5.1 Metal-Metal Junction5.2 Homogeneous Semiconductor Junction; 5.3 Heterogeneous Semiconductor Junction; 5.4 Schottky Junction; 5.5 Metal-Oxide-Semiconductor (MOS); References; 6 3D Quantum Systems; References; 7 2D Quantum Systems; 7.1 Single Quantum Well; 7.2 Multiple Quantum Wells; 7.3 Superlattice; 7.4 DOS; 7.5 Landau Electrons; 7.6 Hydrogenic State of Impurity; 7.7 Surfaces; References; 8 1D Quantum Systems; References; 9 0D Quantum Systems; References; 10 Transport Properties; 10.1 Transport Perpendicular to QW; 10.2 Transport Parallel to QW; 10.3 Magnetic Response
327   $a10.4 Concepts of Electric Conductivity10.5 Universal Conductance Fluctuation; 10.6 Quantized Conductance; 10.7 Integral Quantized Hall Effect (IQHE); 10.8 Fractional Quantized Hall Effect (FQHE); 10.9 Ballistic Transport; 10.10 Coulomb Blockade; 10.11 Atomic Wires; References; 11 Optical Properties; 11.1 Single/Multiple Quantum Wells; 11.2 Exciton Absorption in Various Dimensional Geometries; References; 12 Magnetic Properties; 12.1 Fine Particles; 12.2 Magnetic Thin Films; References; 13 Properties of Macroscopic Quantum States; 13.1 Kosterlitz-Thouless Mode in High-Tc SC
327   $a13.2 Superconducting Thin Wires13.3 Superconducting Tunnel Junction; 13.4 Transport Properties of High-Tc, Cuprates; 13.5 Proximity Effect; 13.6 Andreev Reflection; References; 14 Future Prospects; Appendix A FDM Solution of Schro?dinger Equations; Appendix B Effective-Mass Approximated Equation; Appendix C Boundary Conditions for an Interface; Appendix D Hydrogenic Envelope Function in 3D and 2D; Appendix E Transition Probability of Optical Processes; Appendix F Eigenvalue Problem for a Linear Electric Potential; Appendix G Calculation of Conductivity Based on the Kubo Formula
327   $aAppendix H Calculation of Conductivity Tensor in a Magnetic FieldAppendix I Landau State in z-Representation; Appendix J Micromagnetism of Stripe Domain; Appendix K Physics Underlying Josephson Junctions; Index; Author Index
330   $aFuture high-tech applications such as nanotechnology require a deep understanding of the physics of mesoscopic systems. These systems form a bridge between macroscopic systems governed by classical physics and microscopic systems governed by quantum physics.This introduction discusses a variety of typical surface, optical, transport, and magnetic properties of mesoscopic systems with reference to many experimental observations. It is written for physicists, materials scientists and engineers who want to stay abreast of current research or high-tech development.
606   $aMesoscopic phenomena (Physics)
608   $aElectronic books.
615  0$aMesoscopic phenomena (Physics)
676   $a530.4
676   $a537.6
700   $aMurayama$b Y$g(Yoshimasa),$0312337
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910144743303321
996   $aMesoscopic systems$9808620
997   $aUNINA