Direct measurement of the binding energy and bohr radius of a single hydrogenic defect in a semiconductor quantum well

Direct measurement of the binding energy and bohr radius of a single hydrogenic defect in a semiconductor quantum well

Low-temperature scanning tunneling spectroscopy under ultrahigh vacuum was used to study donor point defects located at the epitaxial surface of an In(0.53)Ga(0.47)As quantum well. The electronic local density of states was measured with nanoscale resolution in the vicinity of single defects. In thi...

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Veröffentlicht in:Physical review letters 2008-02, Vol.100 (5), p.056806-056806, Article 056806
Hauptverfasser: Perraud, Simon, Kanisawa, Kiyoshi, Wang, Zhao-Zhong, Fujisawa, Toshimasa
Format: Artikel
Sprache:eng
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Zusammenfassung:Low-temperature scanning tunneling spectroscopy under ultrahigh vacuum was used to study donor point defects located at the epitaxial surface of an In(0.53)Ga(0.47)As quantum well. The electronic local density of states was measured with nanoscale resolution in the vicinity of single defects. In this way, both the binding energy and the Bohr radius of the defects could be determined. The binding energy and the Bohr radius were found to be functions of the quantum well thickness, in quantitative agreement with variational calculations of hydrogenic impurity states.
ISSN:0031-9007
1079-7114
DOI:10.1103/physrevlett.100.056806