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HOPPING MAGNETORESISTANCE OF N-TYPE GERMANIUM.
B. I. Shklovskii
, Nguen Van Lien
Physics and Astronomy (Twin Cities)
Research output
:
Contribution to journal
›
Article
›
peer-review
4
Scopus citations
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Engineering & Materials Science
Magnetoresistance
100%
Germanium
84%
Magnetic fields
41%
Wave functions
21%
Crystal orientation
21%
Exponential functions
19%
Anisotropy
16%
Electrons
15%
Crystals
15%
Impurities
15%
Physics & Astronomy
brackets
73%
germanium
55%
exponential functions
18%
ellipsoids
17%
magnetic fields
15%
magnetic flux
14%
wave functions
12%
conduction
10%
impurities
10%
anisotropy
9%
coefficients
8%
crystals
7%
electrons
6%
Chemical Compounds
Magnetoresistance
86%
Magnetic Field
44%
Electron Spectra
24%
Percolation
18%
Wave Function
18%
Anisotropy
14%
Time
11%
Donor
10%