Magnetoresistance in the in-plane magnetic field induced semimetallic phase of inverted HgTe quantum wells

T. Khouri (Corresponding author), S. Pezzini, M. Bendias, P. Leubner, U. Zeitler, N. E. Hussey, H. Buhmann, L. W. Molenkamp, M. Titov, S. Wiedmann

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Samenvatting

In this study we have measured the magnetoresistance response of inverted HgTe quantum wells in the presence of a large parallel magnetic field up to 33 T. We show that in quantum wells with inverted band structure a monotonically decreasing magnetoresistance is observed when a magnetic field up to the order of 10 T is applied parallel to the quantum well plane. This feature is accompanied by a vanishing of nonlocality and is consistent with a predicted modification of the energy spectrum that becomes gapless at a critical in-plane field Bc. Magnetic fields in excess of Bc allow us to investigate the evolution of the magnetoresistance in this field-induced semimetallic region beyond the known regime. After the longitudinal resistance reaches a minimum in the presumably gapless phase, we observe a strong upturn of the longitudinal resistance. A small residual Hall signal picked up in nonlocal measurements suggests that this feature is likely a bulk phenomenon and is caused by the semimetallicity of the sample. Theoretical calculations indeed support that the origin of these features is classical and a power law upturn of the resistance can be expected due to the specifics of two-carrier transport in thin (semi)metallic samples subjected to large magnetic fields.

Originele taal-2Engels
Artikelnummer075303
Aantal pagina's8
TijdschriftPhysical Review B
Volume99
Nummer van het tijdschrift7
DOI's
StatusGepubliceerd - 11 feb. 2019

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