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Why first order quantum phase transitions are interesting
C. Pfleiderer
Chair of Experimental Physics on the Topology of Correlated Systems
University of Karlsruhe
Research output
:
Contribution to journal
›
Article
›
peer-review
37
Scopus citations
Overview
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Physics
Spin-Orbit Coupling
100%
Quantum Fluctuation
100%
Fermi Surface
100%
Fermi Liquid
100%
Quantum Correlation
100%
Roton
100%
Magnetism
100%
Liquid Phase
100%
Instanton
100%
Crystal Structure
100%
Electric Field
100%
Free Energy
100%
Superconductivity
100%
Magnetic Phenomena
100%
Keyphrases
First-order
100%
Quantum Phase Transition
100%
Second-order Phase Transition
40%
Crystalline Structure
20%
Liquid Phase
20%
Valence
20%
Level Structure
20%
Correlation Effects
20%
Free Energy Landscape
20%
Spin-orbit Coupling
20%
Quantum Fluctuations
20%
Fermi Surface
20%
Skyrmion
20%
Rotons
20%
Magnetic Ordering
20%
Ordering Behavior
20%
Superconductivity
20%
Itinerant-electron Magnet
20%
Instantons
20%
Non-Fermi Liquid
20%
Quantum Correlations
20%
Weak Rigidity
20%
Classical Phase Transitions
20%
Crystalline Electric Field
20%