2006 APS March Meeting
Monday–Friday, March 13–17, 2006;
Baltimore, MD
Session Y19: Focus Session: Novel Ferromagnetic Semiconductors I
8:00 AM–10:12 AM,
Friday, March 17, 2006
Baltimore Convention Center
Room: 316
Sponsoring
Units:
GMAG DMP
Chair: Chris Palmstrom, University of Minnesota
Abstract ID: BAPS.2006.MAR.Y19.4
Abstract: Y19.00004 : Room-temperature ferromagnetism in (Zn,Cr)Te
8:36 AM–9:12 AM
Preview Abstract
Abstract
Author:
Hidekazu Saito
(Nanoelectronics Research Institute, National Institute of Advanced Industrial Science and Technology)
Ferromagnetic diluted magnetic semiconductors (DMSs) are the key material to
developing semiconductor spintronic devices. One of the most characteristics
physical phenomena in DMS is a strong interaction between \textit{sp}-carriers and
localized $d$-spins (\textit{sp}-$d$ exchange interaction) [1]. Confirmation of this
interaction is essential to prove a synthesis of real DMS, and can be done
directly by the magneto-optical studies such as a magnetic circular
dichroism (MCD) measurement [2]. Here, we report room-temperature (RT)
ferromagnetism with the \textit{sp}-$d$ exchange interaction in Zn$_{1-x}$Cr$_{x}$Te
(x=0.20) [3].
Zn$_{1-x}$Cr$_{x}$Te films with x$\mathbin{\lower.3ex\hbox{$\buildrel<\over
{\smash{\scriptstyle=}\vphantom{_x}}$}} $0.20 were grown on GaAs (001)
substrates by a molecular beam epitaxy method. No sign of a secondary phase
was detected in any films by the reflection high-energy electron and X-ray
diffractions. MCD spectra were measured in a transmission mode.
Magnetization ($M)$ measurements were carried out using a SQUID.
The $M-H $curves of Zn$_{1-x}$Cr$_{x}$Te (x=0.20) showed a ferromagnetic behavior
up to about RT. Curie temperature $T_{C}$ was estimated to be 300$\pm $10 K
by the Arrott plot analysis. A strong enhancement of the MCD signal at the
optical transition energies of critical points of host ZnTe was observed in
Zn$_{1-x}$Cr$_{x}$Te, indicating a strong \textit{sp}-$d$ exchange interaction. The MCD
spectra of Zn$_{1-x}$Cr$_{x}$Te at any magnetic field could be superposed
upon a single spectrum, indicating that the observed MCD signals come from a
single material, that is, Zn$_{1-x}$Cr$_{x}$Te. The magnetic field
dependence of MCD intensity showed the ferromagnetic feature, which
coincides with the $M-H$ curves measured using a SQUID. Furthermore, the MCD
data showed the same $T_{C}$ as that obtained from magnetization data. These
results indicate that Zn$_{1-x}$Cr$_{x}$Te (x=0.20) is an intrinsic DMS with
RT ferromagnetism.
References
[1] J. K. Furdyna, J. Appl. Phys. \textbf{64}, R29 (1988).
[2] K. Ando, in \textit{Magneto-Optics, Springer Series in Solid-State Science,} edited by S. Sugano and N. Kojima (Springer, Berlin, 2000),
Vol.128, p. 211.
[3] H. Saito, V. Zayets, S. Yamagata, and K. Ando, Phys. Rev. Lett.,
\textbf{90} 207202 (2003).
To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2006.MAR.Y19.4