APS March Meeting 2010
Volume 55, Number 2
Monday–Friday, March 15–19, 2010;
Portland, Oregon
Session W39: Focus Session: Iron Based Superconductors: Neutron Scattering and Magnetism
11:15 AM–2:03 PM,
Thursday, March 18, 2010
Room: F150
Sponsoring
Units:
DCMP DMP
Chair: Pengcheng Dai, University of Tennessee-Knoxville
Abstract ID: BAPS.2010.MAR.W39.1
Abstract: W39.00001 : Recent Neutron Studies of the Iron-based Magnetic Superconductors
11:15 AM–11:51 AM
Preview Abstract
Abstract
Author:
Jeffrey Lynn
(NIST Center for Neutron Research, Gaithersburg, MD 20899)
We present results of recent neutron scattering investigations at
the NCNR of the crystal structures, magnetic structures, and spin
dynamics of the iron-based ROFe(As,P) (R=La, Ce, Pr, Nd),
(Ba,Sr,Ca)Fe$_{2}$As$_{2}$, and Fe$_{1-x}$(Se-Te) superconductors
[1]. All the undoped materials exhibit
universal behavior, where a tetragonal-to-orthorhombic structural
transition occurs between $\sim $140-220 K, at or below which the
systems order antiferromagnetically. The magnetic structure
within the a-b plane consists of chains of parallel Fe spins that
are coupled antiferromagnetically in the orthogonal direction,
with an ordered moment typically less than 1 $\mu$$_{B}$. Hence
these are itinerant electron magnets, with a
spin structure that is consistent with Fermi-surface nesting. The
exchange interactions are strong, with spin-wave bandwidths $\sim
$200 meV. The rare-earth moments order antiferromagnetically at
low T like ``conventional''
magnetic-superconductors, while the crystal field excitations can
be employed to study the properties of the superconducting state.
With doping in CeFeAsO$_{1-x}$F$_{x}$, LaFeAsO$_{1-x}$F$_{x}$,
and SrFe$_{2-y}$Ni$_{y}$As$_{2}$ [2] the
structural and magnetic transitions are suppressed in favor of
superconductivity. The application of pressure in
CaFe$_{2}$As$_{2}$ transforms the system from a magnetically
ordered orthorhombic material to a ``collapsed''
non-magnetic tetragonal system. In the superconducting doping
regime, well defined spin correlations and a clear magnetic
resonance in the magnetic excitation spectrum that tracks the
superconducting order parameter are observed, reminiscent of the
cuprate superconductors [3]. The overall results clearly
indicate that the magnetic properties are a key element in these
iron-based superconductors. Further information and references
can be found at http://www.ncnr.nist.gov/staff/jeff
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[1] For a recent neutron review see J. W. Lynn and P. Dai,
Physica C \textbf{469}, 469 (2009).
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[2] N. Kumar, et al., Phys. Rev. B \textbf{80}, 144524 (2009).
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[3] S. Li, et al., Phys. Rev. B \textbf{79}, 174527 (2009).
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It is a pleasure to acknowledge my collaborators at the NCNR and
the many collaborators with the following groups: P. Dai (U.
Tennessee/ORNL), N. L. Wang (Beijing), R. J. Cava (Princeton U.),
A. Goldman (Ames Lab), W. Bao (LANL), S. Dhar (TIFR), J. P.
Paglione (U. Maryland). Please see [1] for a complete list of
co-authors.
To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2010.MAR.W39.1