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Superfluidity of the lattice anyon gas and topological invariance
Eduardo H Fradkin
Physics
Materials Research Lab
Center for Advanced Study
Center for Latin American and Caribbean Studies
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Engineering & Materials Science
Superfluid helium
78%
Fermions
76%
Invariance
45%
Gases
24%
Electromagnetic fields
21%
Magnetic fields
18%
Fluxes
17%
Superconductivity
16%
Hall effect
14%
Gages
10%
Vortex flow
9%
Temperature
4%
Physics & Astronomy
superfluidity
52%
invariance
39%
fermions
34%
integers
31%
gases
21%
electromagnetic fields
17%
flux quantization
16%
Meissner effect
14%
Jordan
14%
saddle points
12%
magnetic fields
10%
coupled modes
10%
gauge theory
10%
Hall effect
9%
screening
9%
superconductivity
9%
vortices
7%
energy
6%
temperature
3%
Chemical Compounds
Anyon
100%
Fermion
67%
Supercritical Fluid
36%
Conductance
20%
Magnetic Field
19%
Meissner Effect
19%
Lagrangian
17%
Superconductivity
12%