Exciton condensation in semiconductor heterostructures produces distinct charge transport signatures: resistivity drop from phase-space suppression and Hall sign reversal from carrier-trion hybridization near resonance.
Static properties of positive ions in atomic bose-einstein conden- sates
3 Pith papers cite this work. Polarity classification is still indexing.
verdicts
UNVERDICTED 3representative citing papers
A purely electronic model for exciton-polarons in moiré lattices predicts density-dependent mass renormalization and sign change near correlated insulators.
Polarons in fermionic and bosonic environments across atomic gases and 2D semiconductors share universal features that illuminate quantum mixture phase diagrams and enable many-body sensing.
citing papers explorer
-
Detecting Exciton Condensation through Charge Transport in Semiconductor Heterostructures
Exciton condensation in semiconductor heterostructures produces distinct charge transport signatures: resistivity drop from phase-space suppression and Hall sign reversal from carrier-trion hybridization near resonance.
-
Purely electronic model for exciton-polaron formation in moir\'e heterostructures
A purely electronic model for exciton-polarons in moiré lattices predicts density-dependent mass renormalization and sign change near correlated insulators.
-
Polarons in atomic gases and two-dimensional semiconductors
Polarons in fermionic and bosonic environments across atomic gases and 2D semiconductors share universal features that illuminate quantum mixture phase diagrams and enable many-body sensing.