Whirlpools form in GaAs 2D electron liquid and appear as negative four-terminal resistance that scales quantitatively with the Gurzhi length, confirming the hydrodynamic analogy.
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Current around a power-law density inhomogeneity in 2D electron gas is exponentially suppressed within a no-go radius scaling with B, exhibiting spiraling patterns and a rotated resistivity dipole whose angle depends on the perturbation exponent.
In the hydrodynamic regime, heat flux in a Corbino disk under magnetic field deflects with a tangential component and can reverse direction under aligned radial electric or temperature gradients.
citing papers explorer
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Transport Detection of Whirlpools in GaAs Electron Liquid
Whirlpools form in GaAs 2D electron liquid and appear as negative four-terminal resistance that scales quantitatively with the Gurzhi length, confirming the hydrodynamic analogy.
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Diffusive and hydrodynamic magnetotransport around a density perturbation in a two-dimensional electron gas
Current around a power-law density inhomogeneity in 2D electron gas is exponentially suppressed within a no-go radius scaling with B, exhibiting spiraling patterns and a rotated resistivity dipole whose angle depends on the perturbation exponent.
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Heat flux deflection induced by hydrodynamic electron transport in a homogeneous Corbino disk under magnetic field
In the hydrodynamic regime, heat flux in a Corbino disk under magnetic field deflects with a tangential component and can reverse direction under aligned radial electric or temperature gradients.