4,847 research outputs found
Magnetic multipole analysis of kagome and artificial ice dipolar arrays
We analyse an array of linearly extended monodomain dipoles forming square
and kagome lattices. We find that its phase diagram contains two (distinct)
finite-entropy kagome ice regimes - one disordered, one algebraic - as well as
a low-temperature ordered phase. In the limit of the islands almost touching,
we find a staircase of corresponding entropy plateaux, which is analytically
captured by a theory based on magnetic charges. For the case of a modified
square ice array, we show that the charges ('monopoles') are excitations
experiencing two distinct Coulomb interactions: a magnetic 'three-dimensional'
one as well as a logarithmic `two dimensional' one of entropic origin.Comment: 4 pages, 2 figures; v2: minor changes as in final published versio
Charge ordering of magnetic monopoles in triangular spin ice patterns
Artificial spin ice offers the possibility to investigate a variety of
dipolar orderings, spin frustrations and ground states. However, the most
fascinating aspect is the realization that magnetic charge order can be
established without spin order. We have investigated magnetic dipoles arranged
on a honeycomb lattice as a function of applied field, using magnetic force
microscopy. For the easy direction with the field parallel to one of the three
dipole sublattices we observe at coercivity a maximum of spin frustration and
simultaneously a maximum of charge order of magnetic monopoles with alternating
charges 3.Comment: 7 pages, 4 figure
Iowa\u27s Contribution to American Men of Science
The latest edition of the Biographical Directory of Scientists lists 2623 who are now in Iowa or were formerly here. For every twenty-one of the present North American scientists, two are or were Iowans. Of these Iowans, 1110 were born in Iowa. Only six states have a larger number of native scientists. Of the outstanding or starred scientists, fifty-nine are native Iowans, a number exceeded by only five states. There is a native Iowa scientist for every 2275 of Iowa\u27s present population, a ratio exceeded only by two states, each with a much smaller population, namely, Vermont and Utah
Directory Listings of Minnesota Scientists
The new directory of scientists, the 10th edition of American Men of Science, enables us to ascertain in what fields and with what organizations scientists are working in Minnesota. It also makes possible a comparison with other organizations and with the rest of the United States
Providing education for emotionally disturbed children in the least restrictive environment
Teachers should be taught to expect behavioral and emotional variety and deviance in their regular classrooms
Vortex states in patterned exchange biased NiO/Ni samples
We investigated the magnetization reversal of arrays of exchange biased
NiO/Ni squares with superconducting quantum interference device magnetometry
and micromagnetic simulations. The edges of the squares were 0.5, 1.5, and 3.0
m long. The NiO/Ni structures exhibit vortexlike hysteresis loops and
micromagnetic calculations show that this feature is due to several vortices
nucleating in the islands. Furthermore, for the arrays with squares of 1.5
m edge length, the sign of the exchange bias field changes, as compared to
the same continuous NiO/Ni layer. We attribute the vortex nucleation and the
change of the exchange bias field to the interplay between shape and
unidirectional anisotropy.Comment: 6 pages, 7 figure
Radionuclide measurements by accelerator mass spectrometry at Arizona
Over the past years, Tandem Accelerator Mass Spectrometry (TAMS) has become established as an important method for radionuclide analysis. In the Arizona system the accelerator is operated at a thermal voltage of 1.8MV for C-14 analysis, and 1.6 to 2MV for Be-10. Samples are inserted into a cesium sputter ion source in solid form. Negative ions sputtered from the target are accelerated to about 25kV, and the injection magnet selects ions of a particular mass. Ions of the 3+ charge state, having an energy of about 9MeV are selected by an electrostatic deflector, surviving ions pass through two magnets, where only ions of the desired mass-energy product are selected. The final detector is a combination ionization chamber to measure energy loss (and hence, Z), and a silicon surface-barrier detector which measures residual energy. After counting the trace iosotope for a fixed time, the injected ions are switched to the major isotope used for normalization. These ions are deflected into a Faraday cup after the first high-energy magnet. Repeated measurements of the isotope ratio of both sample and standards results in a measurement of the concentration of the radionuclide. Recent improvements in sample preparation for C-14 make preparation of high-beam current graphite targets directly from CO2 feasible. Except for some measurements of standards and backgrounds for Be-10 measurements to date have been on C-14. Although most results have been in archaeology and quaternary geology, studies have been expanded to include cosmogenic C-14 in meteorites. The data obtained so far tend to confirm the antiquity of Antarctic meteorites from the Allan Hills site. Data on three samples of Yamato meteorites gave terrestrial ages of between about 3 and 22 thousand years
Conditions for free magnetic monopoles in nanoscale square arrays of dipolar spin ice
We study a modified frustrated dipolar array recently proposed by M\"{o}ller
and Moessner [Phys. Rev. Lett. \textbf{96}, 237202 (2006)], which is based on
an array manufactured lithographically by Wang \emph{et al.} [Nature (London)
\textbf{439}, 303 (2006)] and consists of introducing a height offset
between islands (dipoles) pointing along the two different lattice directions.
The ground-states and excitations are studied as a function of . We have
found, in qualitative agreement with the results of M\"{o}ller and Moessner,
that the ground-state changes for , where ( is the
lattice parameter or distance between islands). In addition, the excitations
above the ground-state behave like magnetic poles but confined by a string,
whose tension decreases as increases, in such a way that for
its value is around 20 times smaller than that for . The system exhibits
an anisotropy in the sense that the string tension and magnetic charge depends
significantly on the directions in which the monopoles are separated. In turn,
the intensity of the magnetic charge abruptly changes when the monopoles are
separated along the direction of the longest axis of the islands. Such a gap is
attributed to the transition from the anti to the ferromagnetic ground-state
when .Comment: 6 pages, 7 figures. Published versio
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