Scientific Reports (Mar 2022)

Spin effect on the low-temperature resistivity maximum in a strongly interacting 2D electron system

  • A. A. Shashkin,
  • M. Yu. Melnikov,
  • V. T. Dolgopolov,
  • M. M. Radonjić,
  • V. Dobrosavljević,
  • S.-H. Huang,
  • C. W. Liu,
  • Amy Y. X. Zhu,
  • S. V. Kravchenko

DOI
https://doi.org/10.1038/s41598-022-09034-x
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 7

Abstract

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Abstract The increase in the resistivity with decreasing temperature followed by a drop by more than one order of magnitude is observed on the metallic side near the zero-magnetic-field metal-insulator transition in a strongly interacting two-dimensional electron system in ultra-clean SiGe/Si/SiGe quantum wells. We find that the temperature $$T_{\text {max}}$$ T max , at which the resistivity exhibits a maximum, is close to the renormalized Fermi temperature. However, rather than increasing along with the Fermi temperature, the value $$T_{\text {max}}$$ T max decreases appreciably for spinless electrons in spin-polarizing (parallel) magnetic fields. The observed behaviour of $$T_{\text {max}}$$ T max cannot be described by existing theories. The results indicate the spin-related origin of the effect.