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Tightly bound gap solitons in a Fermi gas
S. K. Adhikari
*
,
B. A. Malomed
*
Corresponding author for this work
School of Electrical Engineering
Universidade Estadual Paulista Júlio de Mesquita Filho
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peer-review
47
Scopus citations
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Keyphrases
Optical Lattice
100%
Fermi Gas
100%
Gap Solitons
100%
Degenerate Fermi Gas
100%
Fundamental Gap
75%
Band Gap
50%
Numerical Methods
25%
Fermions
25%
Mean Field
25%
Superfluid
25%
Hydrodynamic Model
25%
Transverse Confinement
25%
Weak Interactions
25%
Spin-down
25%
Spin-up
25%
One-dimensional Model
25%
Variational Approximation
25%
Optical Lattice Potential
25%
Up-Down
25%
Tonks-Girardeau Gas
25%
Quintic Equation
25%
Physics
Solitary Wave
100%
Fermi Gas
100%
Optical Lattice
71%
Energy Gaps (Solid State)
28%
Fermion
14%
Hydrodynamic Model
14%
Mathematical Method
14%
Weak Interaction
14%
Supercritical Fluid
14%
Engineering
Solitary Wave
100%
One Dimensional
28%
Band Gap
28%
Hydrodynamic Model
14%
Numerical Methods
14%
Experimental Technique
14%
Dimensional Model
14%
Supercritical Fluid
14%
Mathematics
Lattices
100%
Edge
25%
Variational Approximation
25%
Lattice Potential
25%
Dimensional Model
25%
Mathematical Method
25%
Material Science
Hydrodynamic Model
100%
Supercritical Fluid
100%