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Near-equilibrium transport : fundamentals and applications Mark Lundstrom, Changwook Jeong.

By: Contributor(s): Material type: TextTextSeries: Lessons from nanoscience ; v. 2.Publication details: Singapore : World Scientific, c2013.Description: xxi, 227 p. : ill. ; 24 cmISBN:
  • 9789814355803 (pbk.)
  • 9814355801 (pbk.)
Subject(s): DDC classification:
  • 621.3815 L972N 23
LOC classification:
  • L86 2013
Online resources:
Contents:
Machine generated contents note: 1.Overview -- 1.1.Introduction -- 1.2.Diffusive electron transport -- 1.3.Types of electron transport -- 1.4.Why study near-equilibrium transport? -- 1.5.About these lectures -- 1.6.Summary -- 1.7.References -- 2.General Model for Transport -- 2.1.Introduction -- 2.2.Mathematical model -- 2.3.Modes -- 2.4.Transmission -- 2.5.Near-equilibrium (linear) transport -- 2.6.Transport in the bulk -- 2.7.Summary -- 2.8.References -- 3.Resistance: Ballistic to Diffusive -- 3.1.Introduction -- 3.2.2D resistors: ballistic -- 3.3.2D resistors: diffusive to ballistic -- 3.4.Discussion -- 3.5.Summary -- 3.6.References -- 4.Thermoelectric Effects: Physical Approach -- 4.1.Introduction -- 4.2.Electric current flow: Seebeck effect -- 4.3.Heat current flow: Peltier effect -- 4.4.Coupled flows -- 4.5.Thermoelectric devices -- 4.6.Discussion -- 4.7.Summary -- 4.8.References -- 5.Thermoelectric Effects: Mathematics -- 5.1.Introduction -- 5.2.Driving forces for current flow -- 5.3.Charge current -- 5.4.Heat current -- 5.5.Discussion -- 5.6.Summary -- 5.7.References -- 6.An Introduction to Scattering -- 6.1.Introduction -- 6.2.Physics of carrier scattering -- 6.3.Transmission and mean-free-path -- 6.4.Mean-free-path and scattering -- 6.5.Discussion -- 6.6.Summary -- 6.7.References -- 7.Boltzmann Transport Equation -- 7.1.Introduction -- 7.2.The Boltzmann Transport Equation -- 7.3.Solving the steady-state BTE -- 7.4.Transport coefficients -- 7.5.Magnetic fields -- 7.6.Discussion -- 7.7.Summary -- 7.8.References -- 8.Near-equilibrium Transport: Measurements -- 8.1.Introduction -- 8.2.Resistivity/conductivity measurements -- 8.3.Hall effect measurements -- 8.4.The van der Pauw method -- 8.5.Temperature-dependent measurements -- 8.6.Discussion -- 8.7.Summary -- 8.8.References -- 9.Phonon Transport -- 9.1.Introduction -- 9.2.Electrons and phonons -- 9.3.General model for heat conduction -- 9.4.Thermal conductivity -- 9.5.Debye model for Mph(hw) -- 9.6.Phonon scattering -- 9.7.Discussion -- 9.8.Summary -- 9.9.References -- 10.Graphene: A Case Study -- 10.1.Introduction -- 10.2.Graphene -- 10.3.Density-of-states and carrier density -- 10.4.Number of modes and conductance -- 10.5.Scattering -- 10.6.Conductance vs. carrier density -- 10.7.Discussion -- 10.8.Summary -- 10.9.References.
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Holdings
Item type Current library Collection Call number Status Notes Date due Barcode
Books Books Central Library, IISER Bhopal General Section 621.3815 L972N (Browse shelf(Opens below)) Available 8863
Books Books Central Library, IISER Bhopal Reference Section Reference 621.3815 L972N (Browse shelf(Opens below)) Not For Loan Reserve 8862

Includes bibliographical references and index.

Machine generated contents note: 1.Overview -- 1.1.Introduction -- 1.2.Diffusive electron transport -- 1.3.Types of electron transport -- 1.4.Why study near-equilibrium transport? -- 1.5.About these lectures -- 1.6.Summary -- 1.7.References -- 2.General Model for Transport -- 2.1.Introduction -- 2.2.Mathematical model -- 2.3.Modes -- 2.4.Transmission -- 2.5.Near-equilibrium (linear) transport -- 2.6.Transport in the bulk -- 2.7.Summary -- 2.8.References -- 3.Resistance: Ballistic to Diffusive -- 3.1.Introduction -- 3.2.2D resistors: ballistic -- 3.3.2D resistors: diffusive to ballistic -- 3.4.Discussion -- 3.5.Summary -- 3.6.References -- 4.Thermoelectric Effects: Physical Approach -- 4.1.Introduction -- 4.2.Electric current flow: Seebeck effect -- 4.3.Heat current flow: Peltier effect -- 4.4.Coupled flows -- 4.5.Thermoelectric devices -- 4.6.Discussion -- 4.7.Summary -- 4.8.References -- 5.Thermoelectric Effects: Mathematics -- 5.1.Introduction -- 5.2.Driving forces for current flow -- 5.3.Charge current -- 5.4.Heat current -- 5.5.Discussion -- 5.6.Summary -- 5.7.References -- 6.An Introduction to Scattering -- 6.1.Introduction -- 6.2.Physics of carrier scattering -- 6.3.Transmission and mean-free-path -- 6.4.Mean-free-path and scattering -- 6.5.Discussion -- 6.6.Summary -- 6.7.References -- 7.Boltzmann Transport Equation -- 7.1.Introduction -- 7.2.The Boltzmann Transport Equation -- 7.3.Solving the steady-state BTE -- 7.4.Transport coefficients -- 7.5.Magnetic fields -- 7.6.Discussion -- 7.7.Summary -- 7.8.References -- 8.Near-equilibrium Transport: Measurements -- 8.1.Introduction -- 8.2.Resistivity/conductivity measurements -- 8.3.Hall effect measurements -- 8.4.The van der Pauw method -- 8.5.Temperature-dependent measurements -- 8.6.Discussion -- 8.7.Summary -- 8.8.References -- 9.Phonon Transport -- 9.1.Introduction -- 9.2.Electrons and phonons -- 9.3.General model for heat conduction -- 9.4.Thermal conductivity -- 9.5.Debye model for Mph(hw) -- 9.6.Phonon scattering -- 9.7.Discussion -- 9.8.Summary -- 9.9.References -- 10.Graphene: A Case Study -- 10.1.Introduction -- 10.2.Graphene -- 10.3.Density-of-states and carrier density -- 10.4.Number of modes and conductance -- 10.5.Scattering -- 10.6.Conductance vs. carrier density -- 10.7.Discussion -- 10.8.Summary -- 10.9.References.

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