Probing temperature-driven flow lines in a gated two-dimensional electron gas with tunable spin-splitting

B. P. Dolan; C. F. Huang; C.-T. Liang; D. A. Ritchie; Gil-Ho Kim; J. T. Nicholls; Li-Hung Lin; Shun-Tsung Lo; Wei-Jen Chen; Y. H. Chang

arxiv: 1209.0885 · v1 · pith:RRS52J24new · submitted 2012-09-05 · ❄️ cond-mat.mes-hall · cond-mat.dis-nn

Probing temperature-driven flow lines in a gated two-dimensional electron gas with tunable spin-splitting

Yi-Ting Wang , Gil-Ho Kim , C. F. Huang , Shun-Tsung Lo , Wei-Jen Chen , J. T. Nicholls , Li-Hung Lin , D. A. Ritchie

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Y. H. Chang C.-T. Liang B. P. Dolan

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classification ❄️ cond-mat.mes-hall cond-mat.dis-nn

keywords spin-splittingdecreasingelectronflowgategatedrecentresults

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We study the temperature flow of conductivities in a gated GaAs two-dimensional electron gas (2DEG) containing self-assembled InAs dots and compare the results with recent theoretical predictions. By changing the gate voltage, we are able to tune the 2DEG density and thus vary disorder and spin-splitting. Data for both the spin-resolved and spin-degenerate phase transitions are presented, the former collapsing to the latter with decreasing gate voltage and/or decreasing spin-splitting. The experimental results support a recent theory, based on modular symmetry, which predicts how the critical Hall conductivity varies with spin-splitting.

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Probing temperature-driven flow lines in a gated two-dimensional electron gas with tunable spin-splitting

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