Thermopower measurements of the coupling of phonons to electrons and composite fermions

“…In order to eliminate any spurious voltage caused by the bias current, the signal was measured both with and without temperature gradient, keeping the average temperature of the sample constant [13,14]. Data in swept magnetic fields were obtained with an ac lock-in technique detecting at 4 Hz [15]. The factor used to convert the ac data to absolute thermopower was determined by comparing ac and dc measurements at zero field.…”

mentioning

confidence: 99%

Diffusion Thermopower of a Two-Dimensional Hole Gas in SiGe in a Quantum Hall Insulating State

et al. 2003

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Both the temperature dependence of resistivity and thermopower of a two-dimensional hole gas in SiGe show a reentrant metal-insulator transition at filling factor 1:5, but with strikingly different behavior of the two coefficients. As the temperature is decreased in the insulating state, the resistivity diverges exponentially while the thermopower decreases rapidly, suggesting that the insulating state is due to the presence of a mobility edge rather than a gap at the Fermi energy.

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“…(43) gives S g μ p = -v s ΛT -1 [62] so that Herring's law is validated even in 2D graphene, in which 2D electrons with linear dispersion interact with 2D phonons with ω q ~ q. This relation can, therefore, be used to determine, as in 2D GaAs system [105], a value for μ p, from the measured S g . It may be mentioned here that for the 2D phonons with ω q ~ q 2 (flexural modes) in semiconducting thin films, Herring's law is shown to be invalidated [106].…”

Section: Phonon-drag Thermopower In Slgmentioning

confidence: 94%