3.15 Electrical, Optical & Magnetic Materials and Devices, Fall 2003

Ross, Caroline A.

Author(s)

Ross, Caroline A.

Download3-15Fall2003/OcwWeb/Materials-Science-and-Engineering/3-15Fall2003/CourseHome/index.htm (13.25Kb)

Alternative title

Electrical, Optical & Magnetic Materials and Devices

Terms of use

Usage Restrictions: This site (c) Massachusetts Institute of Technology 2003. Content within individual courses is (c) by the individual authors unless otherwise noted. The Massachusetts Institute of Technology is providing this Work (as defined below) under the terms of this Creative Commons public license ("CCPL" or "license"). The Work is protected by copyright and/or other applicable law. Any use of the work other than as authorized under this license is prohibited. By exercising any of the rights to the Work provided here, You (as defined below) accept and agree to be bound by the terms of this license. The Licensor, the Massachusetts Institute of Technology, grants You the rights contained here in consideration of Your acceptance of such terms and conditions.

Metadata

Show full item record

Abstract

Explores the relationships which exist between the performance of electrical, optical, and magnetic devices and the microstructural characteristics of the materials from which they are constructed. Features a device-motivated approach which places strong emphasis on emerging technologies. Device applications of physical phenomena are considered, including electrical conductivity and doping, transistors, photodectors and photovoltaics, luminescence, light emitting diodes, lasers, optical phenomena, photonics, ferromagnetism, and magnetoresistance.

Date issued

2003-12

URI

http://hdl.handle.net/1721.1/39821

Department

Massachusetts Institute of Technology. Department of Materials Science and Engineering

Other identifiers

3.15-Fall2003

local: 3.15

local: IMSCP-MD5-c8178327349c69c495f9a884eb1fa211

Keywords

microstructural characteristics of materials, device-motivated approach, emerging technologies, physical phenomena, electrical conductivity, doping, transistors, ferromagnetism, magnetoresistance, electrical devices, magnetic devices, materials, device applications

Collections

MIT OCW Archived Courses