## Solid state physics |

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Page 12

The resulting lattice is

. Note that every lattice point is equivalent to every other lattice point. Each of the

original sc lattice points is also in the body-centered position of eight of the new ...

The resulting lattice is

**called**body- centered cubic (bcc) and is shown in Fig. 1-12. Note that every lattice point is equivalent to every other lattice point. Each of the

original sc lattice points is also in the body-centered position of eight of the new ...

Page 34

This work is

formation of a crystal of NaCl, each Na atom gives up an electron to a Cl atom so

that the crystal consists of Na+ and Cl- ions. Each Na+ has six nearest-neighbor

Cl- ...

This work is

**called**the binding energy of the bond. Answer: 5.42 eV. In theformation of a crystal of NaCl, each Na atom gives up an electron to a Cl atom so

that the crystal consists of Na+ and Cl- ions. Each Na+ has six nearest-neighbor

Cl- ...

Page 266

The semiconductor most commonly used in an LED is an alloy of GaAs and GaP

light with a wavelength of about 650 nm which is red (see Fig. 12-17). Problem ...

The semiconductor most commonly used in an LED is an alloy of GaAs and GaP

**called**gallium arsenide phosphide, GaAs0.6P0.4- It is direct-gap and produceslight with a wavelength of about 650 nm which is red (see Fig. 12-17). Problem ...

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### Contents

XRay Diffraction | 37 |

Lattice Vibrations | 61 |

Classical Model of Metals | 89 |

Copyright | |

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### Common terms and phrases

Answer Appendix basis vectors bcc lattice bond Bragg angle Bragg's Law Bravais lattice Brillouin zone called Chapter collisions conduction electrons Consider conventional unit cell Cooper pairs depletion layer diode direction dispersion curve displacement distance doped effective mass elec electric current electric field electrons and holes emitter energy band equal example Fermi energy Fermi level Fermi surface force forward biased free electron free particle frequency given by Eq inside integers ions k-space laser lattice parameter lattice points lattice vector lattice wave magnetic field n-type semiconductor NaCl negative neutrons number of electrons obtain occupied one-dimensional oscillate p-n junction photon positively charged potential energy primitive unit cell Problem rays reciprocal lattice reverse biased sc lattice scattered Schroedinger's equation shown in Fig sodium metal solid structure superconductor temperature tion transistor trons unit cell unoccupied values velocity voltage wave function wave number wave vector wavelength Wigner-Seitz cell wire x-ray diffraction zero