Electronic Conductivity in Solids

Slides:

Advertisements

Similar presentations

Graduate Lecture Series 29 June – 3 July, 2009 Prof Ngee-Pong Chang Lecture 2 Fermi Gas.

Advertisements

Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.

Introductory Nanotechnology ~ Basic Condensed Matter Physics ~

Gauge Field of Bloch Electrons in dual space First considered in context of QHE Kohmoto 1985 Principle of Quantum Mechanics Eigenstate does.

P461 - Semiconductors1 Superconductivity Resistance goes to 0 below a critical temperature T c element T c resistivity (T=300) Ag mOhms/m Cu

MSEG 803 Equilibria in Material Systems 10: Heat Capacity of Materials Prof. Juejun (JJ) Hu

Doped Semiconductors Group IVA semiconductors can be “doped” by adding small amounts of impurities with more or fewer than 4 valence electrons. e.g. add.

Exam Study Practice Do all the reading assignments. Be able to solve all the homework problems without your notes. Re-do the derivations we did in class.

Semiconductors n D*n If T>0

Semiconductors and Superconductors Ashley Heady 510 Advanced Inorganic.

1 Motivation (Why is this course required?) Computers –Human based –Tube based –Solid state based Why do we need computers? –Modeling Analytical- great.

Applications of Normal Modes Physics 213 Lecture 20.

Building a more complex molecule C 2 Isolated impurities From E. A. Moore: “Molecular Modelling and bonding”, Royal Soc. Chem.

Electronic instabilities Electron phonon BCS superconductor Localization in 1D - CDW Electron-electron (  ve exchange)d-wave superconductor Localization.

Xerographic Copiers. Question: If you were to cover the original document with a red transparent filter, would the copier still be be able to produce.

Density of States and Fermi Energy Concepts

Numericals on semiconductors

EEE 3394 Electronic Materials

Michael Browne 11/26/2007.

ELECTRON AND PHONON TRANSPORT The Hall Effect General Classification of Solids Crystal Structures Electron band Structures Phonon Dispersion and Scattering.

Lecture 4.0 Properties of Metals. Importance to Silicon Chips Metal Delamination –Thermal expansion failures Chip Cooling- Device Density –Heat Capacity.

UNIT- IV SOLID STATE PHYSICS. 1)Electrical conductivity in between conductors & insulators is a) high conductors b) low conductors c) Semiconductors d)

NEEP 541 Ionization in Semiconductors Fall 2002 Jake Blanchard.

Electron & Hole Statistics in Semiconductors A “Short Course”. BW, Ch

1 Prof. Ming-Jer Chen Department of Electronics Engineering National Chiao-Tung University September 18, 2014 DEE4521 Semiconductor Device Physics Lecture.

The Quantum Theory of Solids Allowed and forbidden energy bands Pauli Exclusion Principle In any given system, no two electrons can occupy the same state.

Dirac fermions with zero effective mass in condensed matter: new perspectives Lara Benfatto* Centro Studi e Ricerche “Enrico Fermi” and University of Rome.

 The classification of matter as a solid, liquid, or gas.

1 ME 381R Lecture 13: Semiconductors Dr. Li Shi Department of Mechanical Engineering The University of Texas at Austin Austin, TX

Origin of energy band formation:

Energy Gaps Insulators & Superconductors When does an energy or band gap lead to insulating behavior? Band gap insulators, Peierls’ insulators When does.

ELECTRONIC DEVICES AND CIRCUITS ( )

Conductivity, Energy Bands and Charge Carriers in Semiconductors

Review of solid state physics

Announcements Start reading Chapter 43 (Nuclear Physics)

Conductivity Charge carriers follow a random path unless an external field is applied. Then, they acquire a drift velocity that is dependent upon their.

Conduction of Electricity in Solids

BCS THEORY BCS theory is the first microscopic theory of superconductivity since its discovery in It explains, The interaction of phonons and electrons.

Materials Classification and Properties Metals, Ceramics, and Semiconductors NANO 52 Foothill College.

Do all the reading assignments.

QM2 Concept test 7.1 Choose all of the following statements that are correct. (1) The Fermi energy is only defined for fermions. (2) The degeneracy pressure.

ECEE 302: Electronic Devices

Band structure: Semiconductor

PHY 114 A General Physics II 11 AM-12:15 PM TR Olin 101

Search of a Quantum Critical Point in High Tc Superconductors

Band Theory The other approach to band theory solves the Schrodinger equation using a periodic potential to represent the Coulomb attraction of the positive.

Deep Level Transient Spectroscopy (DLTS)

Chemical Bond in Metals and Semiconductors

Fermi Wavevector 2-D projection ky of 3-D k-space dk

Solids and semiconductors

Halliday/Resnick/Walker Fundamentals of Physics 8th edition

Density of States (DOS)

Superconductivity Res. T

Electrical and Electronics Engineering Materials

PHY 752 Solid State Physics

More Wave Equation Solutions Leading To Energy Bands 23 and 25 January 2017.

More Wave Equation Solutions Leading To Energy Bands 3 and 5 February 2014.

PHY 752 Solid State Physics Plan for Lecture 30: Chap. 13 of GGGPP

반도체 기초 이론 Vol. I Semiconductor Fundamentals by R. F

Chapter 5 - Phonons II: Quantum Mechanics of Lattice Vibrations

More Wave Equation Solutions Leading To Energy Bands 2 and 4 February 2015.

Density of States (DOS)

Energy Band View of Semiconductors

SEMICONDUCTOR PHYSICS DEPARTMENT OF APPLIED PHYSICS

More Wave Equation Solutions Leading To Energy Bands 30 January And 1 February 2019.

Conduction of Electricity in Solids

Solid State Electronics ECE-1109

Density of States (DOS)

Self-Assembled Quantum Dot Molecules Studied by AFM

The Conductivity of Doped Semiconductors

Presentation transcript:

Electronic Conductivity in Solids

General and high T: Fundamental energy-models of solids Harmonic oscillator approx. What carries energy around in solids? • standing waves “phonons” • mobile electrons

Electrons ~ Energy bands Origin of energy bands in solids.

From Atoms to E Bands

Energy Gaps

E bands Classification of Materials by Energy Band White bands mean unoccupied states, grey states are occupied.

Density Of States The Fermi function: How far are bands filled?

Electrons ~ Fermi Surfaces Pathways for electrons through solids

K-space:

Metals

Temp. dep. metals

Low T prop electrons in metals Impact impurities, magnetic right, non-magnetic left panel, on low T r.

Semiconductors

p-type vs. n-type

Quantum Mechanics:

or in 3 dim:

Semiconductors:

Number density of holes

Devices: Diodes and Transistors

Superconductors

DOS

Type I vs. Type II

Meissner Effect Type I Type II

Magnetization curve of type II Vortices in Shubnikov phase

Mechanism: Electron-Phonon Coupling

HTSC

Superconducting Magnets

Solids at Low T

Low T prop Electrons