66,867 research outputs found
Implications of the isotope effects on the magnetization, magnetic torque and susceptibility
We analyze the magnetization, magnetic torque and susceptibility data of
La2-xSrxCu(16,18)O4 and YBa2(63,65)CuO7-x near Tc in terms of the universal
3D-XY scaling relations. It is shown that the isotope effect on Tc mirrors that
on the anisotropy. Invoking the generic behavior of the anisotropy the doping
dependence of the isotope effects on the critical properties, including Tc,
correlation lengths and magnetic penetration depths are traced back to a change
of the mobile carrier concentration.Comment: 5 pages, 3 figure
The role of Lambda in the cosmological lens equation
The cosmological constant Lambda affects cosmological gravitational lensing.
Effects due to Lambda can be studied in the framework of the Schwarzschild-de
Sitter spacetime. Two novel contributions, which can not be accounted for by a
proper use of angular diameter distances, are derived. First, a term 2m b
Lambda/3 has to be added to the bending angle, where "m" is the lens mass and
"b" the impact parameter. Second, Lambda brings about a difference in the
redshifts of multiple images. Both effects are quite small for real
astrophysical systems (contribution to the bending < 0.1 microarcsec and
difference in redshift < 10^{-7}).Comment: 4 pages. (Univ. Zuerich); v2: presentation improved, discussion
extended, references to papers posted after the v1-version added. In press on
Phys. Rev. Let
Study of leakage currents in pCVD diamonds as function of the magnetic field
pCVD diamond sensors are regularly used as beam loss monitors in accelerators
by measuring the ionization of the lost particles. In the past these beam loss
monitors showed sudden increases in the dark leakage current without beam
losses and these erratic leakage currents were found to decrease, if magnetic
fields were present. Here we report on a systematic study of leakage currents
inside a magnetic field. The decrease of erratic currents in a magnetic field
was confirmed. On the contrary, diamonds without erratic currents showed an
increase of the leakage current in a magnetic field perpendicular to the
electric field for fields up to 0.6T, for higher fields it decreases. A
preliminary model is introduced to explain the observations.Comment: 6 pages, 16 figures, poster at Hasselt Diamond Workshop, Mar 2009,
accepted version for publicatio
Limits on Pop III star formation with the most iron-poor stars
We study the impact of star-forming mini-haloes, and the Initial Mass
Function (IMF) of Population III (Pop III) stars, on the Galactic halo
Metallicity Distribution Function (MDF) and on the properties of C-enhanced and
C-normal stars at [Fe/H]<-3. For our investigation we use a data-constrained
merger tree model for the Milky Way formation, which has been improved to
self-consistently describe the physical processes regulating star-formation in
mini-haloes, including the poor sampling of the Pop III IMF. We find that only
when star-forming mini-haloes are included the low-Fe tail of the MDF is
correctly reproduced, showing a plateau that is built up by C-enhanced
metal-poor (CEMP) stars imprinted by primordial faint supernovae. The
incomplete sampling of the Pop III IMF in inefficiently star-forming
mini-haloes (< /yr) strongly limits the formation of Pair
Instability Supernovae (PISNe), with progenitor masses =[140-260] , even when a flat Pop III IMF is assumed.
Second-generation stars formed in environments polluted at >50% level by PISNe
are thus extremely rare, corresponding to 0.25% of the total stellar
population at [Fe/H]<-2, which is consistent with recent observations. The
low-Fe tail of the MDF strongly depends on the Pop III IMF shape and mass
range. Given the current statistics, we find that a flat Pop III IMF model with
=[10-300] is disfavoured by observations. We present
testable predictions for Pop III stars extending down to lower masses, with
=[0.1-300] .Comment: 15 pages, 11 figures. Accepted for publication in MNRAS. The only
change is the correction of a mistake in the list of author
Current-induced magnetic vortex core switching in a Permalloy nanodisk
We report on the switching of a magnetic vortex core in a sub-micron
Permalloy disk, induced by a short current pulse applied in the film plane.
Micromagnetic simulations including the adiabatic and non-adiabatic spin-torque
terms are used to investigate the current-driven magnetization dynamics. We
predict that a core reversal can be triggered by current bursts a tenth of a
nanosecond long. The vortex core reversal process is found to be the same as
when an external field pulse is applied. The control of a vortex core's
orientation using current pulses introduces the technologically relevant
possibility to address individual nanomagnets within dense arrays.Comment: 3 pages, 3 figure
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