Abstract
UNTIL recently, the theory of conductivity put forward by Sommerfeld and Bloch did not succeed in explaining the change of resistance in magnetic fields. If R′ is the resistance in a magnetic field H, R that without magnetic field, then for weak fields the change of resistance ΔR=R′ - R follows theoretically as well as experimentally the law1
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References
For the theoretical explanation of the deviation from this law for strong fields observed by Kapitza (Proc. Roy. Soc., A, 123, 292; 1929) see N. H. Frank, Zeit. f. Physik, 63, 596; 1930.
Leipziger Vorträge, 1930, p. 75, see specially p. 85.
Zeit. f. Physik, 47, 1; 1928.
See Sommerfeld, I.c., equations (77a), (34), (42a), (48c). Our E0 Is Sommerfeld's kT log A, n is the number of electrons per cm.2 of the metal.
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BETHE, H. Change of Resistance in Magnetic Fields. Nature 127, 336–337 (1931). https://doi.org/10.1038/127336a0
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DOI: https://doi.org/10.1038/127336a0
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