Regensburg 2013 – scientific programme
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TT: Fachverband Tiefe Temperaturen
TT 41: Spintronics / Quantum Information: Materials and Methods (jointly with HL)
TT 41.6: Talk
Wednesday, March 13, 2013, 16:15–16:30, H2
Influence of strong quantum confinement on the magnetic dopant-carrier exchange coupling in Mn2+ doped CdSe nanoribbons — Rachel Fainblat1, •Franziska Muckel1, Julia Frohleiks1, Jung Ho Yu2, Jiwoong Yang2, Taeghwan Hyeon2, and Gerd Bacher1 — 1Werkstoffe der Elektrotechnik and CeNIDE, Universität Duisburg-Essen, Germany — 2Nanomaterials Laboratory, Seoul National University, Korea
Key materials for future spintronic applications might be magnetically doped semiconductors with a substantial coupling between the dopants and charge carriers of the host semiconductor. This interaction is expected to be significantly altered by quantum confinement, an issue which is controversially discussed since more than a decade.
Here, we report on a clear evidence of a quantum confinement induced modification of both, s-d and s-p exchange interaction in two dimensional 1.4 nm thick Mn2+ doped CdSe quantum nanoribbons [1]. Both absorption and magnetic circular dichroism spectra are dominated by spectrally well-separated resonance peaks related to the heavy and the light hole excitonic transition. This allows a separate study of the s-d and the p-d exchange interaction constants. Taking into account the optical selection rules and the statistical orientation of the nanoribbons on the substrate, a remarkable change of the s-d exchange constant with respect to bulk is indicated. Room-temperature studies revealed an unusually high effective g-factor up to ∼13 encouraging the implementation of the nanoribbons for spintronic applications.
[1] R. Fainblat et al., Nano Letters 12, 5311 (2012)