19,666 research outputs found
Rating of electrical wires in vacuum environments
Electric conductors used in vacuum environments have smaller cross sections. This report provides data on the correct size wire for a required current load in free-air, low-pressure oxygen, and vacuum environments
Does The Addition of a Duration Improve the L_iso - E_peak Relation For Gamma-Ray Bursts?
Firmani et al. proposed a new Gamma Ray Burst (GRB) luminosity relation that
showed a significant improvement over the L_iso-E_peak relation. The new
proposed relation simply modifies the E_peak value by multiplying it by a power
of T_0.45, where T_0.45 is a particular measure of the GRB duration. We begin
by reproducing the results of Firmani for his 19 bursts. We then test the
Firmani relation for the same 19 bursts except that we use independently
measured values for L_iso, T_0.45, and E_peak, and we find that the relation
deteriorates substantially. We further test the relation by using 60 GRBs with
measured spectroscopic redshifts, and find a relation that has a comparable
scatter as the original L_iso-E_peak relation. That is, a much larger sample of
bursts does not reproduce the small scatter as reported by Firmani et al.
Finally, we investigate whether the Firmani relation is improved by the use of
any of 32 measures of duration in place of T_0.45. The quality of each
alternative duration measure is evaluated with the root mean square of the
scatter between the observed and fitted logarithmic Liso values. Although we
find some durations yield slightly better results than T_0.45, the differences
between the duration measures are minimal. We find that the addition of a
duration does not add any significant improvement to the L_iso-E_peak relation.
We also present a simple and direct derivation of the Firmani relation from
both the L_iso-E_peak and Amati relations. In all we conclude that the Firmani
relation neither has an independent existence nor does it provide any
significant improvement on previously known relations that are simpler.Comment: ApJ in press, 17 pages, 3 figures, 3 table
Parameters of the lowest order chiral Lagrangian from fermion eigenvalues
Recent advances in Random Matrix Theory enable one to determine the
pseudoscalar decay constant from the response of eigenmodes of quenched
fermions to an imaginary isospin chemical potential. We perform a pilot test of
this idea, from simulations with two flavors of dynamical overlap fermions.Comment: 11 pages, 7 figures, Revte
Polarized antiquark flavor asymmetry: Pauli blocking vs. the pion cloud
The flavor asymmetry of the unpolarized antiquark distributions in the
proton, dbar(x) - ubar(x) > 0, can qualitatively be explained either by Pauli
blocking by the valence quarks, or as an effect of the pion cloud of the
nucleon. In contrast, predictions for the polarized asymmetry Delta_ubar(x) -
Delta_dbar(x) based on rho meson contributions disagree even in sign with the
Pauli blocking picture. We show that in the meson cloud picture a large
positive Delta_ubar(x) - Delta_dbar(x) is obtained from pi-N - sigma-N
interference-type contributions, as suggested by chiral symmetry. This effect
restores the equivalence of the 'quark' and 'meson' descriptions also in the
polarized case.Comment: 4 pages, revtex, 3 eps figure
A Study of Display Integration for Hypersonic Research Vehicles First Quarterly Progress Report, 16 May - 16 Aug. 1963
Contact analog television display for X-15 pilot flight control informatio
A Gamma Ray Burst with a 220 Microsecond Rise Time and a Sharp Spectral Cutoff
The Gamma Ray Burst GRB920229 has four extreme and unprecedented properties;
a rise in brightness with an e-folding time scale of , a fall
in brightness with an e-folding time scale of , a large
change in spectral shape over a time of , and a sharp spectral
cutoff to high energies with . The rapid changes occur
during a spike in the light curve which was seen 0.164 s after the start of the
burst. The spectrum has a peak at 200 keV with no significant
flux above 239 keV, although the cutoff energy shifts to less than 100 keV
during the decay of the spike. These numbers can be used to place severe limits
on fireball models of bursts. The thickness of the energy production region
must be smaller than , ejected shells must have a dispersion of the
Lorentz factor of less than roughly 1% along a particular radius, and the
angular size of the radiation emission region is of order 1 arc-minute as
viewed from the burst center. The physical mechanism that caused the sharp
spectral cutoff has not been determined.Comment: 20 pages, 3 figures, Submitted to ApJ
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