experimental first order reversal curves (forc) on ising and heisenberg spin glasses
Post on 25-Feb-2016
51 Views
Preview:
DESCRIPTION
TRANSCRIPT
Experimental first order reversal curves (FORC) on Ising and
Heisenberg spin glasses
Didier Hérisson, Michael Östh and Per NordbladUppsala University
Hysteresis loops on spin glasses
(From Spin Glasses, R. Rammal and J. Souletie, notes froma course at Grenoble in 1981)
Au(Fe) – E.I. Kondorski et al. (1973)
Cu(Mn)-P. Monod et al.(1979)
What can one learn from the hysteresis behaviour using FORCs?
• The FORC distribution gives a visualisation of switching events• Comparison with ’related’ systems• Distinguishes an in-field SG phase from no in-field SG phase?
The FORC method
Roberts et al. J. Geophys. Res. 105, 28461 (2000)
Construction of the FORC distribution
2 ( , )
, r ar a
r a
M H HH H
H H
2
2
a rc
a rb
H HH
H HH
FORC distributions
C.R. Pike et al. Geophys. J. Int. 145, 721 (2001)
b) Weakly interactingnanoparticlesc) Floppy disc.d) nanoparticles
Monte Carlo 2d-EASG
H. G. Katzgraber et al. Phys. Rev. Lett. 85, 257202 (2002)
3D FORC distribution plot from MC-simulations of a 2d Ising EASG
H.G. Katzgraber et al.
ZFC-FC-TRM
FMTO Ag(Mn)
H=0.1 Oe
Hysteresis of Ag(Mn) and Fe0.5Mn0.5TiO3
FORC FMTOM (arb.units.)
FORC distribution FMTO
FORCs Ag(Mn)
FORC distribution Ag(Mn)
3D FORC Ag(Mn)
Comparison
Ag(Mn) FMTO
Conclusions
Remarkably different hysteresis behaviour for Ising (strongly anisotropic) and Heisenberg spin glasses.The FORCs of FMTO shows similarities with weakly interacting nanoparticle systems with wide distributions of particle sizes.The Ag(Mn) system yields unique FORC distributions with a very sharp structure at a rather weak negative bias field and low coercivity……Supportive of other experimental indications suggesting in-field SG transitions in weakly anisotropic systems?
FeAgW – mechanically alloyed
FeAgW - FORC
c.f. FMTOFeAgW
top related