## Treatise on materials science and technology |

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Page 61

Vibronic structure and the configuration coordinate model; (a) a configuration

coordinate diagram, showing the variation of energy with

for two electronic states and the optical transitions between the states; (b) the

optical ...

Vibronic structure and the configuration coordinate model; (a) a configuration

coordinate diagram, showing the variation of energy with

**nuclear**configurationfor two electronic states and the optical transitions between the states; (b) the

optical ...

Page 65

(1957). electron and its

hyperfine interaction. The interaction energy is &Eb = S • A • I (10) where S is

again the electron spin vector, I the

(1957). electron and its

**nuclear**spin changes the electron energy levels throughhyperfine interaction. The interaction energy is &Eb = S • A • I (10) where S is

again the electron spin vector, I the

**nuclear**spin vector, and A is the hyperfine ...Page 68

12, which shows the interaction of an electron and a

magnetic field and with each other. The allowed EPR transitions ( | - +> to | + + >

and | > to | + - » in the Dirac notation are both partially saturated by applying a

fairly ...

12, which shows the interaction of an electron and a

**nuclear**spin of \ with amagnetic field and with each other. The allowed EPR transitions ( | - +> to | + + >

and | > to | + - » in the Dirac notation are both partially saturated by applying a

fairly ...

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### Contents

Introduction | 2 |

Formal Relations for Solutions | 3 |

Phase Relations | 12 |

Copyright | |

17 other sections not shown

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### Common terms and phrases

alkali halides applied stress atomic ordering behavior Burgers vector center concentration Chem color centers components configuration cross slip cyclic deformation dislocation loop disordered alloy effect elastic collisions equation equilibrium excited F amplitudes F band F centers FeCo alloy flow stress fracture fully ordered given by Eq grain high energy impurities interaction interstitial ionic irradiation lattice low temperatures luminescence magnetic Marcinkowski materials McLellan measurements mechanism nearest neighbor neutron nuclear occur optical absorption ordered alloys ordinary dislocations pair production pairs particle photochemical photoluminescence photon Phys plastic fatigue plastic strain point defects Pooley Proc produced R. G. Davies radiation damage processes recombination room temperature shown in Fig shows Sibley single crystals slip bands slip plane sodalite solid solute atoms Sonder stage Status Solidi stress-strain curves structure studies superlattice dislocation techniques temperature dependence thermal thermodynamic tion trapped twinning vacancies values yield stress