Title (en)
The Hall coefficient and the ideal resistivity of the noble metals at high temperatures
Language
English
Description (de)
Using precise Fermi surface calculations it is shown that the truncation of the Fermi surface by lattice vibrations yields for pure noble metals a considerable contribution to the decrease of the Hall coefficient and the deviation of the ideal electrical resistivity from linearity at higher temperatures.
Keywords (en)
Hall coefficient, ideal resistivity, noble metals, Fermi surface, Bragg scattering
Author of the digital object
Franz Sachslehner
31.10.2011
Format
application/pdf
Size
236.6 kB
Licence Selected
CC BY 2.0 AT
Description or Additional Data (en)
This manuscript was submitted for publication to Journal of Physics: Condensed Matter in the year 2000. There were two positve and two negative referee's reports. A submission to physica status solidi resulted also in standoff of referee's reports. So the manuscript was not published yet. Presentation at Phaidra since: 31.10.2011
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Entity / Personal data
Firstname
Franz
Lastname
Sachslehner
Title
Mag. Dr.
Date
2011-10-31
Description or Additional Data (en)
This manuscript was submitted for publication to Journal of Physics: Condensed Matter in the year 2000. There were two positve and two negative referee's reports. A submission to physica status solidi resulted also in standoff of referee's reports. So the manuscript was not published yet. Presentation at Phaidra since: 31.10.2011
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Persistent identifier
https://phaidra.univie.ac.at/o:104020 - Content
- DetailsUploaderObject typePDFDocumentFormatapplication/pdfCreated31.10.2011 03:06:52
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