TF EIM Chapt3

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Semiconductor physics

There are 5 states of matter: Solid, liquid, gas, plasma (ionized gas) , and a Bose-Einstein condensate (quantum effects on a macroscopic scale).

Crystal Lattice

Semiconductor physics focuses on the solid state of matter in the form of crystals.

Crystals are formed when atoms are arranged in repeating structures called the crystal lattice. The recurrent structure which forms the crystal lattice is referred to a a cell.

Some popular cell names are


TF EIM SimpleCubic.jpeg TF EIM BodyCentereCubic.jpeg TF EIM FaceCentereCubic.jpeg
(SC) Simple Cubic (BCC) Body Centered Cubic (FCC) Face Centered Cubic

The above images are suppose to represent the distribution of electrons in the crystal lattice cell.


To understand this structure more let's consider the structure of a 1-D crystal of atoms


A single free atom will have electrons bound to the atom due to the coulomb force. The bound electrons are found in various energy levels.


TF EIM Crystal Cell EnergyLevels.png

Notice
When you add the atoms to form the lattice, the potential barrier is lowered. This allows the electrons in the higher (more valence) states to become shared among adjacent atoms.( Delocalized)
Another effect is that the energy bands become wider. As the electrons in the higher energy states are shared between atoms forming a bond, the time any one electron spends bound to any one atom becomes smaller. SInce[math] \Delta E \Delta t \approx \hbar[/math] one finds that [math]\Delta E[/math] gets bigger for the higher state electrons (less bound) since their time \Delta t in a given bound state becomes less. The electron energy states become band like structures which get wider as you move to higher energy (less bound) electron states.


There are 14 different Bravais lattice configurations

Crystal System Lattice type
Cubic Simple, Face Centered, Body Centered
Tetragonal Simple, Body Centered
Orthorhombic Simple, Face Centered, Body Centered, End Centered
Monoclinic Simple, End Centered
Rhombohedral Simple
Triclinic Simple
Hexagonal Simple

Most Semiconductors are made from Silicon and GaAs.


Silicon is a Face Centered Cubic cell

Silicon is an insulator if in pure form with 4 weakly bound (valence) electrons.

If you replace silicon atoms in the lattice with atoms that have either 3 valance or 5 valence electrons (doping) your can create sites with either a deficient number of electrons (a missing bond) or extra electrons (complete bond with a free electron)

TF EIM SiliconLattice np junction.jpg

By Doping silicon you can create sites with extra electrons (n-type) or sites with a deficient number of electrons (vacancies or holes ) (P-type)




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