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3.071 Amorphous Materials (MIT) 3.071 Amorphous Materials (MIT)

Description

This course discusses the fundamental material science behind amorphous solids, or non-crystalline materials. It covers formation of amorphous solids; amorphous structures and their electrical and optical properties; and characterization methods and technical applications. This course discusses the fundamental material science behind amorphous solids, or non-crystalline materials. It covers formation of amorphous solids; amorphous structures and their electrical and optical properties; and characterization methods and technical applications.

Subjects

glass | glass | amorphous solid | amorphous solid | mechanical and optical properties | mechanical and optical properties | metastable | metastable | silica | silica | ideal crystals | ideal crystals | network formers | network formers | modifiers | modifiers | intermediates | intermediates | alkali silicate glass | alkali silicate glass | amorphous semiconductors | amorphous semiconductors | metallic glass | metallic glass | glass forming theory | glass forming theory | crystallization | crystallization | thermodynamics of nucleation | thermodynamics of nucleation | potential energy landscape | potential energy landscape | Zachariasen’s rules | Zachariasen’s rules | kinetic theory | kinetic theory | network topology theory | network topology theory | laboratory glass transition | laboratory glass transition | glass forming ability parmaters | glass forming ability parmaters | performance metrics | performance metrics | GST phase change alloy | GST phase change alloy | PCM | PCM | phase change memory | phase change memory | data storage | data storage | pitch drop experiment | pitch drop experiment | temperature dependence | temperature dependence | viscous flow | viscous flow | stron v. fragile liquids | stron v. fragile liquids | non- newtonian behavior | non- newtonian behavior | viscometry | viscometry | linear elasticity | linear elasticity | Newtonian viscosity | Newtonian viscosity | elasticity | elasticity | viscosity | viscosity | glass shaping | glass shaping | relaxation | relaxation | mechanical properties | mechanical properties | glass stregthening | glass stregthening | electrical properties | electrical properties | transport properties | transport properties | macroelectronics | macroelectronics | optical properties | optical properties | optical fibers | optical fibers | waveguides | waveguides | amorphous state | amorphous state

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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3.071 Amorphous Materials (MIT)

Description

This course discusses the fundamental material science behind amorphous solids, or non-crystalline materials. It covers formation of amorphous solids; amorphous structures and their electrical and optical properties; and characterization methods and technical applications.

Subjects

glass | amorphous solid | mechanical and optical properties | metastable | silica | ideal crystals | network formers | modifiers | intermediates | alkali silicate glass | amorphous semiconductors | metallic glass | glass forming theory | crystallization | thermodynamics of nucleation | potential energy landscape | ?s rules | kinetic theory | network topology theory | laboratory glass transition | glass forming ability parmaters | performance metrics | GST phase change alloy | PCM | phase change memory | data storage | pitch drop experiment | temperature dependence | viscous flow | stron v. fragile liquids | non- newtonian behavior | viscometry | linear elasticity | Newtonian viscosity | elasticity | viscosity | glass shaping | relaxation | mechanical properties | glass stregthening | electrical properties | transport properties | macroelectronics | optical properties | optical fibers | waveguides | amorphous state

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htm

Site sourced from

https://ocw.mit.edu/rss/all/mit-allcourses.xml

Attribution

Click to get HTML | Click to get attribution | Click to get URL

All metadata

See all metadata