Insights Blog
-- Browse All Articles --
Physics Articles
Physics Tutorials
Physics Guides
Physics FAQ
Math Articles
Math Tutorials
Math Guides
Math FAQ
Education Articles
Education Guides
Bio/Chem Articles
Technology Guides
Computer Science Tutorials
Forums
Classical Physics
Quantum Physics
Quantum Interpretations
Special and General Relativity
Atomic and Condensed Matter
Nuclear and Particle Physics
Beyond the Standard Model
Cosmology
Astronomy and Astrophysics
Other Physics Topics
Trending
Featured Threads
Log in
Register
What's new
Search
Search
Search titles only
By:
Classical Physics
Quantum Physics
Quantum Interpretations
Special and General Relativity
Atomic and Condensed Matter
Nuclear and Particle Physics
Beyond the Standard Model
Cosmology
Astronomy and Astrophysics
Other Physics Topics
Menu
Log in
Register
Navigation
More options
Contact us
Close Menu
JavaScript is disabled. For a better experience, please enable JavaScript in your browser before proceeding.
You are using an out of date browser. It may not display this or other websites correctly.
You should upgrade or use an
alternative browser
.
Forums
Physics
Atomic and Condensed Matter
Understanding the Derivation of Effective Mass Approximation in Semiconductors
Reply to thread
Message
[QUOTE="Louis Fry, post: 5473908, member: 594057"] I am not sure how it is rigorously defined, no doubt it has to do with the potential in the semiconductor. Perhaps you must find the actual wave numbers and approximate the dispersion relation to a parabolic one within the band of interest, with mass adjusted as fitting parameter? For the experimentalists the effective mass approximation is useful for describing results, so in some cases the aim for a theorist would be to obtain a matching effective mass value in a model that explains their experimental results. [/QUOTE]
Insert quotes…
Post reply
Forums
Physics
Atomic and Condensed Matter
Understanding the Derivation of Effective Mass Approximation in Semiconductors
Back
Top