14 research outputs found
Stability and dynamics of free magnetic polarons
The stability and dynamics of a free magnetic polaron are studied by Monte
Carlo simulation of a classical two-dimensional Heisenberg model coupled to a
single electron. We compare our results to the earlier mean-field analysis of
the stability of the polaron, finding qualitative similarity but quantitative
differences. The dynamical simulations give estimates of the temperature
dependence of the polaron diffusion, as well as a crossover to a tunnelling
regime.Comment: 4 pages including 4 .eps figure
Magnetoresistance in Mn pyrochlore: electrical transport in a low carrier density ferromagnet
We discuss magnetotransport in a low density electron gas coupled to spin
fluctuations near and above a ferromagnetic transition. Provided the density is
low enough (, with the ferromagnetic
correlation length), spin polarons form in an intermediate temperature regime
above . Both in the spin polaron regime, and in the itinerant regime
nearer , the magnetoresistance is large. We propose that this provides a
good model for ``colossal'' magnetoresistance in the pyrochlore
TlScMnO, fundamentally different from the mechanism in the
perovskite manganites such as LaSrMnO.Comment: 4 pages, LaTex, + 3 figure
Magnetic behaviour of Eu_2CuSi_3: Large negative magnetoresistance above Curie temperature
We report here the results of magnetic susceptibility,
electrical-resistivity, magnetoresistance (MR), heat-capacity and ^{151}Eu
Mossbauer effect measurements on the compound, Eu_2CuSi_3, crystallizing in an
AlB_2-derived hexagonal structure. The results establish that Eu ions are
divalent, undergoing long-range ferromagnetic-ordering below (T_C=) 37 K. An
interesting observation is that the sign of MR is negative even at temperatures
close to 3T_C, with increasing magnitude with decreasing temperature exhibiting
a peak at T_C. This observation, being made for a Cu containing magnetic
rare-earth compound for the first time, is of relevance to the field of
collosal magnetoresistance.Comment: To appear in PRB, RevTex, 4 pages text + 6 psFigs. Related to our
earlier work on Gd systems (see cond-mat/9811382, cond-mat/9811387,
cond-mat/9812069, cond-mat/9812365
Phase Diagram of Diluted Magnetic Semiconductor Quantum Wells
The phase diagram of diluted magnetic semiconductor quantum wells is
investigated. The interaction between the carriers in the hole gas can lead to
first order ferromagnetic transitions, which remain abrupt in applied fields.
These transitions can be induced by magnetic fields or, in double-layer systems
by electric fields. We make a number of precise experimental predictions for
observing these first order phase transitions.Comment: 4 pages, 3 figures include
Fluctuation induced hopping and spin polaron transport
We study the motion of free magnetic polarons in a paramagnetic background of
fluctuating local moments. The polaron can tunnel only to nearby regions of
local moments when these fluctuate into alignment. We propose this fluctuation
induced hopping as a new transport mechanism for the spin polaron. We calculate
the diffusion constant for fluctuation induced hopping from the rate at which
local moments fluctuate into alignment. The electrical resistivity is then
obtained via the Einstein relation. We suggest that the proposed transport
mechanism is relevant in the high temperature phase of the Mn pyrochlore
colossal magneto resistance compounds and Europium hexaboride.Comment: 8 pages, 3 figure
Phase separation and enhanced charge-spin coupling near magnetic transitions
The generic changes of the electronic compressibility in systems which show
magnetic instabilities is studied. It is shown that, when going into the
ordered phase, the compressibility is reduced by an amount comparable to the
its original value, making charge instabilities also possible. We discuss,
within this framework, the tendency towards phase separation of the double
exchange systems, the pyrochlores, and other magnetic materials