Thermopower of two-dimensional electrons at filling factors ν=3/2 and 5/2

W. E. Chickering; J. P. Eisenstein; L. N. Pfeiffer; K. W. West

doi:10.1103/PhysRevB.81.245319

Thermopower of two-dimensional electrons at filling factors ν=3/2 and 5/2

W. E. Chickering, J. P. Eisenstein, L. N. Pfeiffer, K. W. West

Research output: Contribution to journal › Article › peer-review

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Abstract

The longitudinal thermopower of ultrahigh mobility two-dimensional (2D) electrons has been measured at both zero magnetic field and at high fields in the compressible metallic state at filling factor ν=3/2 and the incompressible fractional quantized Hall state at ν=5/2. At zero field our results demonstrate that the thermopower is dominated by electron diffusion for temperatures below about T=150mK. A diffusion-dominated thermopower is also observed at ν=3/2 and allows us to extract an estimate of the composite fermion effective mass. At ν=5/2 both the temperature and magnetic field dependence of the observed thermopower clearly signal the presence of the energy gap of this fractional quantized Hall state. We find that the thermopower in the vicinity of ν=5/2 exceeds that recently predicted under the assumption that the entropy of the 2D system is dominated by non-Abelian quasiparticle exchange statistics.

Original language	English (US)
Article number	245319
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	81
Issue number	24
DOIs	https://doi.org/10.1103/PhysRevB.81.245319
State	Published - Jun 21 2010
Externally published	Yes

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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10.1103/PhysRevB.81.245319

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title = "Thermopower of two-dimensional electrons at filling factors ν=3/2 and 5/2",

abstract = "The longitudinal thermopower of ultrahigh mobility two-dimensional (2D) electrons has been measured at both zero magnetic field and at high fields in the compressible metallic state at filling factor ν=3/2 and the incompressible fractional quantized Hall state at ν=5/2. At zero field our results demonstrate that the thermopower is dominated by electron diffusion for temperatures below about T=150mK. A diffusion-dominated thermopower is also observed at ν=3/2 and allows us to extract an estimate of the composite fermion effective mass. At ν=5/2 both the temperature and magnetic field dependence of the observed thermopower clearly signal the presence of the energy gap of this fractional quantized Hall state. We find that the thermopower in the vicinity of ν=5/2 exceeds that recently predicted under the assumption that the entropy of the 2D system is dominated by non-Abelian quasiparticle exchange statistics.",

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T1 - Thermopower of two-dimensional electrons at filling factors ν=3/2 and 5/2

AU - Chickering, W. E.

AU - Eisenstein, J. P.

AU - Pfeiffer, L. N.

AU - West, K. W.

PY - 2010/6/21

Y1 - 2010/6/21

N2 - The longitudinal thermopower of ultrahigh mobility two-dimensional (2D) electrons has been measured at both zero magnetic field and at high fields in the compressible metallic state at filling factor ν=3/2 and the incompressible fractional quantized Hall state at ν=5/2. At zero field our results demonstrate that the thermopower is dominated by electron diffusion for temperatures below about T=150mK. A diffusion-dominated thermopower is also observed at ν=3/2 and allows us to extract an estimate of the composite fermion effective mass. At ν=5/2 both the temperature and magnetic field dependence of the observed thermopower clearly signal the presence of the energy gap of this fractional quantized Hall state. We find that the thermopower in the vicinity of ν=5/2 exceeds that recently predicted under the assumption that the entropy of the 2D system is dominated by non-Abelian quasiparticle exchange statistics.

AB - The longitudinal thermopower of ultrahigh mobility two-dimensional (2D) electrons has been measured at both zero magnetic field and at high fields in the compressible metallic state at filling factor ν=3/2 and the incompressible fractional quantized Hall state at ν=5/2. At zero field our results demonstrate that the thermopower is dominated by electron diffusion for temperatures below about T=150mK. A diffusion-dominated thermopower is also observed at ν=3/2 and allows us to extract an estimate of the composite fermion effective mass. At ν=5/2 both the temperature and magnetic field dependence of the observed thermopower clearly signal the presence of the energy gap of this fractional quantized Hall state. We find that the thermopower in the vicinity of ν=5/2 exceeds that recently predicted under the assumption that the entropy of the 2D system is dominated by non-Abelian quasiparticle exchange statistics.

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Thermopower of two-dimensional electrons at filling factors ν=3/2 and 5/2

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