Solid state physics ashcroft mermin Chapter 2 paat 3

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Start date Feb 18, 2010
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In summary, crystalline solids have a highly ordered structure while non-crystalline solids have a more random structure. The three types of crystal lattices are primitive, body-centered, and face-centered, which differ in the positions of lattice points and number of atoms in each unit cell. The Brillouin zone is a region in reciprocal space that represents all possible wave vectors of electrons in a crystal, and it helps in understanding electron behavior. Band theory explains the difference in electrical conductivity between conductors, insulators, and semiconductors by stating that energy levels form continuous bands with a band gap between them. The Fermi surface, which is a boundary in reciprocal space, determines the electronic properties of a material at absolute zero temperature

Feb 18, 2010

flair1031

Homework Statement

The radius characteristic of the volume occupied by each electron rs is required that
rs>>((h^2)/(2m*kB*T))^(1/2).
What is the significance of the length rs must exceed?

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Feb 18, 2010

ideasrule

Homework Helper

Think deBroglie's equation.

What is the difference between crystalline and non-crystalline solids?

Crystalline solids have a highly ordered and repeating arrangement of atoms or molecules, while non-crystalline solids have a more random and disordered structure.

What are the three types of crystal lattices?

The three types of crystal lattices are primitive, body-centered, and face-centered. These lattices differ in the positions of the lattice points and the number of atoms contained in each unit cell.

What is the significance of the Brillouin zone in solid state physics?

The Brillouin zone is a region in reciprocal space that represents all the possible wave vectors of the electrons in a crystal. It is an important concept in solid state physics as it helps in understanding the behavior of electrons in a crystal lattice.

How does band theory explain the difference in electrical conductivity between conductors, insulators, and semiconductors?

Band theory states that the energy levels of electrons in a solid form continuous bands, with a band gap between the valence and conduction band. Conductors have overlapping valence and conduction bands, allowing electrons to move freely and thus conduct electricity. Insulators have a large band gap, making it difficult for electrons to move, while semiconductors have a smaller band gap, allowing some electrons to move and conduct electricity under certain conditions.

What is the significance of the Fermi surface in determining the electronic properties of a material?

The Fermi surface is a boundary in reciprocal space that separates the filled and empty energy levels of a material at absolute zero temperature. It is important in determining the electronic properties of a material, such as its electrical and thermal conductivity, as it represents the available energy states for electrons to occupy and participate in electronic processes.