IJPAM: Volume 102, No. 2 (2015)
ITS APPLICATIONS TO NOBLE METALS RESISTIVITY,
Department of Physics
Faculty of Science
Taif, AL-Haweiah, P.O. Box 888, Zip Code 21974, KINGDOM OF SAUDI ARABIA
Abstract. Internal thermal energy in solids contributes to all kinds of bosons and fermions energy across very complicated mechanisms. Bloch-Grüneisen (BG) function is considered a main term which controls in phonons resistivity.
Mathematical treatment had been applied on BG resistivity equation, which gave a Semi-empirical relationship between integral constant and Debye temperature in noble metals as a function of temperature. Comparison between theoretical and experimental was examined.
Received: February 10, 2015
AMS Subject Classification: 62H10, 62P35, 74F05, 74H45, 81V19, 82C10, 82D35, 82D40
Key Words and Phrases: BG function, Debye functions, Phonons, bosons, fermions
Download paper from here.
DOI: 10.12732/ijpam.v102i2.6 How to cite this paper?
Source: International Journal of Pure and Applied Mathematics
ISSN printed version: 1311-8080
ISSN on-line version: 1314-3395
Pages: 233 - 245
Google Scholar; DOI (International DOI Foundation); WorldCAT.
This work is licensed under the Creative Commons Attribution International License (CC BY).