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Contractor-renormalization study of Hubbard plaquette clusters
Shirit Baruch
*
,
Dror Orgad
*
Corresponding author for this work
Racah Institute of Physics
Research output
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Article
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peer-review
19
Scopus citations
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Keyphrases
Binding Energy
100%
Renormalization
100%
Plaquette
100%
Kinetic Energy
50%
Repulsion
50%
Finite Size
50%
Hole Pair
50%
Hole Doping
50%
Antiferromagnetic
50%
Checkerboard
50%
Potential Energy
50%
Hubbard Model
50%
Energy-driven
50%
Phase Ordering
50%
Magnons
50%
Single-hole
50%
Ordering Temperature
50%
Renormalization Scheme
50%
Resonating Valence Bond
50%
Spin Gap
50%
Bond Correlation
50%
Chemistry
Binding Energy
100%
Ground State
50%
Antiferromagnetic
50%
Magnon
50%
Potential Energy
50%
Hubbard Model
50%
Spin Gap
50%
formation
50%
Kinetic Energy
50%
Engineering
Max
100%
Plaquette
100%
Binding Energy
66%
Energy Engineering
33%
Potential Energy
33%
Hole Pair
33%
Bond Valence
33%
Cluster Size
33%
Intermediate Value
33%
Ground State
33%
Physics
Binding Energy
100%
Potential Energy
50%
Magnon
50%
Ground State
50%
Kinetic Energy
50%
Biochemistry, Genetics and Molecular Biology
Binding Energy
100%
Motion
50%