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Www.soran.edu.iq SOLID STATE PHYSICS & Electronics 1.

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Presentation on theme: "Www.soran.edu.iq SOLID STATE PHYSICS & Electronics 1."— Presentation transcript:

1 www.soran.edu.iq SOLID STATE PHYSICS & Electronics 1

2 www.soran.edu.iq What is solid state physics? Explains the properties of solid materials. Explains the properties of a collection of atomic nuclei and electrons interacting with electrostatic forces. More…

3 www.soran.edu.iq Crystalline Solids Crystalline materials are solids with an atomic structure based on a regular repeated pattern. The majority of all solids are crystalline. More progress has been made in understanding the behavior of crystalline solids than that of non-crystalline materials since the calculation are easier in crystalline materials. Understanding the electrical properties of solids is right at the heart of modern society and technology.

4 www.soran.edu.iq PART 1 CRYSTAL STRUCTURES Elementary Crystallography Solid materials (crystalline, polycrystalline, amorphous) Crystallography Crystal Lattice Crystal Structure Types of Lattices Unit Cell

5 www.soran.edu.iq 5 + -+ - + -+ - + -+ - + -+ - + -+ - + -+ - + -+ -

6 6 POLYCRYSTALLINE SOLIDS Polycrystalline Pyrite form (Grain) Polycrystalline materials are made up of an aggregate of many small single crystals (also called crystallites or grains). Polycrystalline materials have a high degree of order over many atomic or molecular dimensions. Grains (domains) are separated by grain boundaries. The atomic order can vary from one domain to the next. The grains are usually 100 nm - 100 microns in diameter. Polycrystals with grains less than 10 nm in diameter are nanocrystalline

7 www.soran.edu.iq 7 AMORPHOUS SOLIDS Amorphous (Non-crystalline) Solids are made up of randomly orientated atoms, ions, or molecules that do not form defined patterns or lattice structures. Amorphous materials have order only within a few atomic or molecular dimensions. Amorphous materials do not have any long-range order, but they have varying degrees of short-range order. Examples to amorphous materials include amorphous silicon, plastics, and glasses. Amorphous silicon can be used in solar cells and thin film transistors.

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