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

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Presentation on theme: "More Wave Equation Solutions Leading To Energy Bands 2 and 4 February 2015."— Presentation transcript:

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

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15 Electron Effective Mass
For electrons in semiconductor lattice, Analogy to free electron, and, Free electron mass For example, in Si in GaAs, The bottom part of conduction band can be approximated by the parabola. 15 15

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17 Conduction Band and Valence Band
For valence band holes Ec Ev For conduction band electrons Bandgap k E 17 17

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21 Conduction band (empty)
Band Structure of Insulators Eg Conduction band Valence band Eg Filled with few electrons Filled with few holes Conduction band (empty) Valence band (full) T > 0 K T = 0 K Few number of electrons and holes results in poor conductivity 21 21

22 Conduction band (empty)
Band Structure of Semiconductors Conduction band (empty) Valence band T > 0 K Eg Filled with some electrons Filled with some holes Conduction band Eg Valence band (full) T = 0 K Significant number of electrons and holes results in higher conductivity than insulator 22 22

23 Band Structure of Metals
Occupied band Empty band Band overlap T = 0 K It is easy for the electrons to jump into the empty levels, so metals have high conductivity. 23 23

24 Concept of Hole The movement of a valence electron into a empty state is equivalent to the movement of the positively charged empty state itself Movement of holes can also give rise to a current Each hole carries 1.6Х10-19 (C) of charge 24 24

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