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Microwave surface resistance of potassium in a perpendicular magnetic field: Effects of the charge-density wave
Mi Ae Park
, A. Overhauser
Research output
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Contribution to journal
›
Article
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peer-review
2
Scopus citations
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Dive into the research topics of 'Microwave surface resistance of potassium in a perpendicular magnetic field: Effects of the charge-density wave'. Together they form a unique fingerprint.
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Engineering & Materials Science
Charge density waves
100%
Magnetic field effects
71%
Surface resistance
66%
Potassium
54%
Microwaves
39%
Fermi surface
33%
Cyclotron resonance
27%
Magnetic fields
26%
Cyclotrons
22%
Electrons
15%
Orbits
13%
Chemical Compounds
Charge Density Wave
69%
Magnetic Field Effect
65%
Surface Resistance
63%
Microwave
36%
Magnetic Breakdown
31%
Magnetic Field
27%
Cyclotron Resonance
26%
Drop
25%
Velocity
12%
Resonance
11%
Shape
9%
Surface
9%
Electron Particle
8%
Physics & Astronomy
potassium
44%
microwaves
30%
magnetic fields
22%
periodic variations
11%
equatorial orbits
10%
cyclotron resonance
7%
Fermi surfaces
6%
cyclotrons
6%
breakdown
4%
electrons
2%