34,506 research outputs found
An observation of cosmic ray positrons from 10-20 GeV
A balloon flight of the University of Chicago electron telescope was performed. Making use of the east-west asymmetry in the geomagnetic cut off rigidity, the cosmic ray positrons and negatrons were separated over the range 10 GeV to 20 GeV. The positron to electron ratio, e+/(e++e-), was measured to be 17% + or - 5%, significantly higher than the ratio measured in the 1 GeV to 10 GeV range by other experiments. This increase appears to suggest that either a primary component of positrons become significant above 10 GeV, or that the spectrum of primary negatrons decreases above 10 GeV more sharply than that of secondary positrons
Multi-parton correlations and "exclusive" cross sections
In addition to the inclusive cross sections discussed within the QCD-parton
model, in the regime of multiple parton interactions, different and more
exclusive cross sections become experimentally viable and may be suitably
measured. Indeed, in its study of double parton collisions, the quantity
measured by CDF was an "exclusive" rather than an inclusive cross section. The
non perturbative input to the "exclusive" cross sections is different with
respect to the non perturbative input of the inclusive cross sections and
involves correlation terms of the hadron structure already at the level of
single parton collisions. The matter is discussed in details keeping explicitly
into account the effects of double and of triple parton collisions.Comment: 18 pages, no figures, corrected typo
On timelike and spacelike hard exclusive reactions
We show to next-to-leading order accuracy in the strong coupling alpha_s how
the collinear factorization properties of QCD in the generalized Bjorken regime
relate exclusive amplitudes for spacelike and timelike hadronic processes. This
yields simple space--to--timelike relations linking the amplitudes for
electroproduction of a photon or meson to those for photo- or meso-production
of a lepton pair. These relations constitute a new test of the relevance of
leading twist analyzes of experimental data.Comment: v2: major text revision; results, references, and author added; v3:
matches the published version Phys. Rev. D86, rapid communication
Elastomer coated filler and composites thereof comprising at least 60% by weight of a hydrated filler and an elastomer containing an acid substituent
The impact resistance of flame retardant composites, especially thermoplastic molding: compounds containing over 60% hydrated mineral filler such as Al(OH)3 or Mg(OH)2 as improved by coating the filler with 1 to 20% of an elastomer. The composite will fail by crazing or shearing rather than by brittle fracture. A well bonded elastomeric interphase resulted by utilizing acidic substituted resins such as ethyl-hexyl acrylate-acrylic acid copolymers which bond to and are cross-linked by the basic filler particles. Further improvement in impact resistance was provided by incorporating 1 to 10% of a resin fiber reinforcement such as polyvinyl alcohol fibers that decompose to yield at least 30% water when heated to decomposition temperature
Voids in the LCRS versus CDM Models
We have analyzed the distribution of void sizes in the two-dimensional slices
of the Las Campanas Redshift Survey (LCRS). Fourteen volume-limited subsamples
were extracted from the six slices to cover a large part of the survey and to
test the robustness of the results against cosmic variance. Thirteen samples
were randomly culled to produce homogeneously selected samples. We then studied
the relationship between the cumulative area covered by voids and the void size
as a property of the void hierarchy. We find that the distribution of void
sizes scales with the mean galaxy separation, . In particular, we find
that the size of voids covering half of the area is given by D_{med} \approx
\lambda + (12\pm3) \h^{-2}Mpc. Next, by employing an environmental density
threshold criterion to identify mock galaxies, we were able to extend this
analysis to mock samples from dynamical -body simulations of Cold Dark
Matter (CDM) models. To reproduce the observed void statistics, overdensity
thresholds of are necessary. We have compared
standard (SCDM), open (OCDM), vacuum energy dominated (CDM), and
broken scale invariant CDM models (BCDM): we find that both the void coverage
distribution and the two-point correlation function provide important and
complementary information on the large-scale matter distribution. The
dependence of the void statistics on the threshold criterion for the mock
galaxy indentification shows that the galaxy biasing is more crucial for the
void size distribution than are differences between the cosmological models.Comment: 10 pages, 8 eps figures, submitted to MNRA
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