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Freezeout of the electrical resistivity of (BEDT-TTF)
2
I
3
below 20 K
M. Weger
*
, D. Schweitzer
*
Corresponding author for this work
Racah Institute of Physics
Research output
:
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Article
›
peer-review
13
Scopus citations
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2
I
3
below 20 K'. Together they form a unique fingerprint.
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Keyphrases
Resistivity
100%
Electrical Conductivity
100%
Freeze-out
100%
BEDT-TTF
100%
Temperature Effect
50%
Phonons
50%
Law
50%
Low Density
50%
Fermi Level
50%
Sharp Peak
50%
Phonon Frequencies
50%
Resistance Ratio
50%
Electron Gas
50%
Momentum Dependence
50%
High Dispersion
50%
Ab Initio Theory
50%
Highly Dispersive
50%
Extremely Low Temperature
50%
Metal-organic Materials
50%
Anomalous Behavior
50%
Dispersive Media
50%
High-Tc Cuprates
50%
Engineering
Low-Temperature
100%
Peak Velocity
100%
Fermi Level
100%
Resistance Ratio
100%
Chemistry
Phonon
100%
Fermi Level
50%
Electron Gas
50%
Organic Metal
50%
Earth and Planetary Sciences
Phonon
100%
Electron Gas
50%
Cuprates
50%
Physics
Phonon
100%
Cuprates
50%
Electron Gas
50%