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Nearest neighbor hopping in Cd
0.83
Mn
0.17
Te:In, controlled by persistent photoconductivity
C. Leighton
, I. Terry, P. Becla
Chemical Engineering and Materials Science
Research output
:
Contribution to journal
›
Article
›
peer-review
4
Scopus citations
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Dive into the research topics of 'Nearest neighbor hopping in Cd
0.83
Mn
0.17
Te:In, controlled by persistent photoconductivity'. Together they form a unique fingerprint.
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Keyphrases
Persistent Photoconductivity
100%
Nearest-neighbor Hopping
100%
Low Temperature
50%
Electrical Conductivity
50%
High Temperature
50%
Magnetoresistance
50%
Temperature Effect
50%
Transport Mechanism
50%
Carrier Density
50%
Temperature Range
50%
Nearest Neighbor
50%
Photoconductor
50%
Resistivity
50%
Negative Magnetoresistance
50%
Cd1-xMnxTe
50%
Hopping Transport
50%
Localized Electrons
50%
Magnetotransport Measurements
50%
Magnetic Ions
50%
Photocarriers
50%
Dilute Magnetic
50%
Orbital Effect
50%
Material Science
Magnetoresistance
100%
Electrical Resistivity
100%
Photoconductivity
100%
Carrier Concentration
50%
Photoconducting Material
50%