APS March Meeting 2010
Volume 55, Number 2
Monday–Friday, March 15–19, 2010;
Portland, Oregon
Session L3: How to Predict Localized Hole-States in Oxides and Wide-Gap Semiconductors?
2:30 PM–5:30 PM,
Tuesday, March 16, 2010
Room: Oregon Ballroom 203
Sponsoring
Unit:
DCMP
Chair: Alex Zunger, National Renewable Energy Laboratory
Abstract ID: BAPS.2010.MAR.L3.2
Abstract: L3.00002 : Exotic magnetism in the alkali sesquioxides Rb$_4$O$_6$ and Cs$_4$O$_6$
3:06 PM–3:42 PM
Preview Abstract
Abstract
Author:
Gerhard H. Fecher
(Johannes Gutenberg - University, Mainz)
Among the various alkali oxides the sesquioxides Rb$_4$O$_6$ and
Cs$_4$O$_6$
are of special interest. They
comprise two different types of dioxygen anions, the hyperoxide
and the peroxide
anions. The nonmagnetic peroxide anions do not contain unpaired
electrons while
the hyperoxide anions contain unpaired electrons in antibonding
$\pi^*$-orbitals.
Electronic structure calculations using the local
spin-density approximation reveal strong electron correlations
and charge ordering that
is due to the mixed valency.
The experimental
investigation of the temperature dependent magnetization reveals
a low-temperature magnetic transition.
The mixed valency of both compounds is confirmed using Raman
spectroscopy. The
time- and temperature-dependent magnetization experiments
indicate that both compounds follow
a behavior being
known from spin glasses and frustrated systems
The frustration
is explained by first principle calculations that incorporate
the correlation between the oxygen $2p$-electrons and deal with the
mixed-valent oxygen. This leads to a physical picture where the
symmetry is reduced because one third of the oxygen anions in the
oxides
is nonmagnetic while the remaining anions are
antiferromagnetically arranged. A degenerate, insulating ground
state with a large number of frustrated non-collinear magnetic
configurations is confidently deduced from the theoretical point
of view.
Further it is shown that the compounds exhibit a
variety of interesting physical phenomena under high pressure.
Around 75~GPa a transition from the insulating antiferromagnetic
frustrated phase
to a half-metallic ferromagnetic state takes place. At a pressure
of 75~GPa all
anionic oxygen molecules (peroxide and hyperoxide) carry magnetic
moments. Finally, above 160~GPa a metallic phase appears, where
all oxygen
molecules become equivalent. It is demonstrated
that the bond length differences of O$_{2}^{2-}$ and O$_{2}^{-}$
have a
vital effect on magnetism and conductivity of the sesquioxides.
To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2010.MAR.L3.2