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1 PublicationPrecise tuning of the Curie temperature of (Ga,Mn)As-based magnetic semiconductors by hole compensation: Support for valence-band ferromagnetism
Zhou, S.; Li, L.; Yuan, Y.; Rushforth, A. W.; Chen, L.; Wang, Y.; Boettger, R.; Heller, R.; Zhao, J.; Edmonds, K. W.; Campion, R. P.; Gallagher, B. L.; Timm, C.; Helm, M.
Abstract
For the prototype diluted ferromagnetic semiconductor (Ga,Mn)As, there is a fundamental concern about the electronic states near the Fermi level, i.e., whether the Fermi level resides in a well-separated impurity band derived from Mn doping (impurity-band model) or in the valence band that is already merged with the Mn-derived impurity band (valence-band model). We investigate this question by carefully shifting the Fermi level by means of carrier compensation. We use helium-ion implantation, a standard industry technology, to precisely compensate the hole doping of GaAs-based diluted ferromagnetic semiconductors while keeping the Mn concentration constant. We monitor the change of Curie temperature (TC) and conductivity. For a broad range of samples including (Ga,Mn)As and (Ga,Mn)(As,P) with various Mn and P concentrations, we observe a smooth decrease of TC with carrier compensation over a wide temperature range while the conduction is changed from metallic to insulating. The existence of TC below 10K is also confirmed in heavily compensated samples. Our experimental results are naturally explained within the valence-band picture.
Keywords: Magnetic semiconductors; Ion irradiation; Fermi level
Involved research facilities
- Ion Beam Center DOI: 10.17815/jlsrf-3-159
Related publications
- DOI: 10.17815/jlsrf-3-159 is cited by this (Id 23963) publication
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Physical Review B 95(2016), 075205
DOI: 10.1103/PhysRevB.94.075205
Cited 18 times in Scopus
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Permalink: https://www.hzdr.de/publications/Publ-23963