APS March Meeting 2017
Volume 62, Number 4
Monday–Friday, March 13–17, 2017;
New Orleans, Louisiana
Session A43: Spin Orbit Physics in Oxides I
8:00 AM–11:00 AM,
Monday, March 13, 2017
Room: 390
Sponsoring
Units:
GMAG DMP DCOMP
Chair: Songxue Chi, Oak Ridge Natl Lab
Abstract ID: BAPS.2017.MAR.A43.8
Abstract: A43.00008 : The Consequences of Spin-Orbit Coupling on the 5d$^{\mathrm{3}}$ Electronic Configuration
9:48 AM–10:24 AM
Preview Abstract
Abstract
Author:
A. D. Christianson
(Oak Ridge National Laboratory)
The impact of spin-orbit coupling on collective properties of matter is of
considerable interest. The most intensively investigated materials in this
regard are Iridium-based transition metal oxides which exhibit a host of
interesting ground states that originate from a 5d$^{\mathrm{5}}$
J$_{\mathrm{eff}}=$1/2 electronic configuration. Moving beyond the
J$_{\mathrm{eff}}=$1/2 paradigm to other electronic configurations where
spin-orbit coupling plays a prominent role is a key objective of ongoing
research. Here we focus on several Osmium-based transition metal oxides such
as NaOsO$_{\mathrm{3}}$, Cd$_{\mathrm{2}}$Os$_{\mathrm{2}}$O$_{\mathrm{7}}$,
Ca$_{\mathrm{3}}$LiOsO$_{\mathrm{6}}$,
Sr$_{\mathrm{2}}$ScOsO$_{\mathrm{6}}$, Ba$_{\mathrm{2}}$YOsO$_{\mathrm{6}}$,
and Sr$_{\mathrm{2}}$FeOsO$_{\mathrm{6}}$, which are nominally in the
5d$^{\mathrm{3}}$ electronic configuration. Within the LS coupling picture
and a strong octahedral crystal field, the 5d$^{\mathrm{3}}$ configuration
is expected to be an orbital singlet and spin-orbit effects should be
minimal. Nevertheless, our neutron and x-ray scattering investigations of
these materials as well as investigations by other groups show dramatic
effects of spin-orbit coupling including reduced moment magnetic order,
enhanced spin-phonon coupling, and large spin gaps. In particular, the
anisotropy induced by spin-orbit coupling tips the balance of the frustrated
interactions and drives the selection of particular magnetic ground states.
To understand the mechanism driving the spin-orbit effects, we have explored
the ground state t$_{\mathrm{2g}}$ manifold with resonant inelastic x-ray
scattering and observe a spectrum inexplicable by an LS coupling picture. On
the other hand, an intermediate coupling approach reveals that the ground
state wave function is a J$=$3/2 configuration which answers the question of
how strong spin-orbit coupling effects arise in 5d$^{\mathrm{3}}$ systems.
To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2017.MAR.A43.8