scholarly journals Interlayer Coherent Composite Fermi Liquid Phase in Quantum Hall Bilayers

2009 ◽  
Vol 103 (25) ◽  
Author(s):  
Jason Alicea ◽  
Olexei I. Motrunich ◽  
G. Refael ◽  
Matthew P. A. Fisher
Keyword(s):  
Liquid Phase ◽  
Fermi Liquid ◽  
Quantum Hall

DISORDERING OF THE CORRELATED STATE OF THE QUANTUM HALL BILAYER AT FILLING FACTOR ν = 1

2012 ◽  
Vol 26 (21) ◽  
pp. 1250134 ◽  
Author(s):  
Z. PAPIĆ ◽  
M. V. MILOVANOVIĆ
Keyword(s):  
Liquid Phase ◽  
Ground State ◽  
Fermi Liquid ◽  
Quantum Hall ◽  
Finite Size ◽  
Critical Distance ◽  
Fermi Liquids ◽  
Direct Transition ◽  
State Changes ◽  
Finite Size Corrections

The phase diagram of a quantum Hall bilayer at total filling ν = 1 contains an incompressible superfluid for small distances d between the layers, as well as the compressible phase corresponding to two uncoupled Fermi liquids for large d. Using exact diagonalization on the sphere and torus geometry, we investigate a long-standing question of the nature of the transition between the two regimes, and the possibility for the existence of a paired phase in the transition region. We find considerable evidence for a direct transition between the superfluid and the Fermi liquid phase, based in particular on the behavior of the ground state energy on the sphere (including appropriate finite-size corrections) as a function of d. At the critical distance dC ≈ 11.6ℓB the topological number ("shift") of the ground state changes, suggesting that tuning the layer separation d in experiment likely leads to a direct transition between the superfluid and the Fermi liquid phase.

Partial order in the non-Fermi-liquid phase of MnSi

Nature ◽  
2004 ◽  
Vol 427 (6971) ◽  
pp. 227-231 ◽  
Author(s):  
C. Pfleiderer ◽  
D. Reznik ◽  
L. Pintschovius ◽  
H. v. Löhneysen ◽  
M. Garst ◽  
...  
Keyword(s):  
Liquid Phase ◽  
Partial Order ◽  
Fermi Liquid

AN EXACTLY SOLVABLE FERMION MODEL: SPINONS, HOLONS AND A NON-FERMI LIQUID PHASE

1991 ◽  
Vol 05 (09) ◽  
pp. 643-649 ◽  
Author(s):  
G. BASKARAN
Keyword(s):  
Liquid Phase ◽  
Fermi Surface ◽  
Electron Concentration ◽  
Fermi Liquid ◽  
Low Energy ◽  
Metal Insulator Transition ◽  
Metal Insulator ◽  
Limited Region ◽  
Fermion Model ◽  
Exactly Solvable

An interacting fermion model in d-dimensions is introduced and solved exactly. Low energy excitations have complete spin-charge decoupling. The holon spectrum is gapless and exhibits a pseudo-Fermi surface. Spinons have a gap and, as in the 1-D Hubbard model, the spinons exist only in a limited region of the Brillouin Zone. As a function of electron concentration the system exhibits metal insulator transition.

scholarly journals A cascade of phase transitions in an orbitally mixed half-filled Landau level

2018 ◽  
Vol 4 (9) ◽  
pp. eaat8742 ◽  
Author(s):  
Joseph Falson ◽  
Daniela Tabrea ◽  
Ding Zhang ◽  
Inti Sodemann ◽  
Yusuke Kozuka ◽  
...  
Keyword(s):  
Fermi Liquid ◽  
Degrees Of Freedom ◽  
Quantum Hall ◽  
Landau Levels ◽  
Electron Systems ◽  
Fractional Quantum ◽  
Fractional Quantum Hall ◽  
Quantum Numbers ◽  
Near Degeneracy ◽  
Excellent Reproducibility

Half-filled Landau levels host an emergent Fermi liquid that displays instability toward pairing, culminating in a gapped even-denominator fractional quantum Hall ground state. While this pairing may be probed by tuning the polarization of carriers in competing orbital and spin degrees of freedom, sufficiently high quality platforms offering such tunability remain few. We explore the ground states at filling factor ν = 5/2 in ZnO-based two-dimensional electron systems through a forced intersection of opposing spin branches of Landau levels taking quantum numbers N = 1 and 0. We reveal a cascade of phases with distinct magnetotransport features including a gapped phase polarized in the N = 1 level and a compressible phase in N = 0, along with an unexpected Fermi liquid, a second gapped, and a strongly anisotropic nematic-like phase at intermediate polarizations when the levels are near degeneracy. The phase diagram is produced by analyzing the proximity of the intersecting levels and highlights the excellent reproducibility and controllability that ZnO offers for exploring exotic fractionalized electronic phases.

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