246 research outputs found
Coherent two pion photoproduction on 12C
We develop the formalism for coherent two pion photoproduction in nuclei and
perform actual calculations of cross sections for and
photoproduction on . We find that due to the isospin symmetry the cross
section for production is very small and has a maximum when the
pions propagate together. However, the kinematical region where the energies
and polar angles of the two mesons are equal and their relative
azimuthal angle is forbidden. Conversely in the
production the pions prefer to have a relative azimuthal angle 180 and the
production of the pions propagating together is suppressed. The dominant
one-body mechanism in both channels is related to the excitation of the
isobar. Hence the reaction can serve as a source of information about
's properties in nucleus. We have found that the reaction is sensitive
to effects of the pion and renormalization in the nuclear medium,
similar to those found in the coherent reaction, but magnified
because of the presence of the two pions.Comment: 17 pages LATEX and 11 postscript figure
Study of polarization observables in double pion photoproduction on the proton
Using a model for two pion photoproduction on the proton previously tested in
total cross sections and invariant mass distributions, we evaluate here
polarization observables on which recent experiments are providing new
information. We evaluate cross sections for spin 1/2 and 3/2, which are
measured at Mainz and play an important role in tests of the GHD sum rule.
We also evaluate the proton polarization asymmetry which is
currently under investigation at GRAAL in Grenoble.Comment: 23 pages, 14 ps figure
Helicity asymmetries in double pion photoproduction on the proton
Based on a prior model on double pion photoproduction on the proton,
successfully tested in total cross sections and invariant mass distributions,
we make a theoretical study of the angular dependence of helicity asymmetries
from the interaction of circularly polarized photons with unpolarized protons.
We show that this observable is sensitive to details of the internal mechanisms
and, thus, represents a complementary test of the theoretical model.Comment: 16 pages, 6 figures, version accepted for publication in Nuclear
Physics
Double Pion Photoproduction in Nuclei
The inclusive A(gamma,pi+ pi-)X reaction is studied theoretically. A sizeable
enhancement of the cross section is found, in comparison with the scaling of
the deuteron cross section (sigma_deuteron * A/2). This enhancement is due to
the modifications in the nuclear medium of the gamma N ----> pi pi N amplitude
and the pion dispersion relation. The enhancement is found to be bigger than
the one already observed in the (pi,pi pi) reaction in nuclei.Comment: 11 pages, 7 figures (figures available from authors); TeX, Version
3.141 [PD VMS 3.4/CERN 1.0
Electroproduction of the d* dibaryon
The unpolarized cross section for the electroproduction of the isoscalar
di-delta dibaryon is calculated for deuteron target using a
simple picture of elastic electron-baryon scattering from the and the components of the deuteron. The calculated
differential cross section at the electron lab energy of 1 GeV has the value of
about 0.24 (0.05) nb/sr at the lab angle of 10 (30) for the
Bonn B potential when the dibaryon mass is taken to be 2.1 GeV. The cross
section decreases rapidly with increasing dibaryon mass. A large calculated
width of 40 MeV for combined with a small
experimental upper bound of 0.08 MeV for the decay width appears to have
excluded any low-mass model containing a significant admixture of the
configuration.Comment: 11 journal-style pages, 8 figure
Hybrid classical-quantum computing: are we forgetting the classical part in the binomial?
The expectations arising from the latest achievements in the quantum
computing field are causing that researchers coming from classical artificial
intelligence to be fascinated by this new paradigm. In turn, quantum computing,
on the road towards usability, needs classical procedures. Hybridization is, in
these circumstances, an indispensable step but can also be seen as a promising
new avenue to get the most from both computational worlds. Nonetheless, hybrid
approaches have now and will have in the future many challenges to face, which,
if ignored, will threaten the viability or attractiveness of quantum computing
for real-world applications. To identify them and pose pertinent questions, a
proper characterization of the hybrid quantum computing field, and especially
hybrid solvers, is compulsory. With this motivation in mind, the main purpose
of this work is to propose a preliminary taxonomy for classifying hybrid
schemes, and bring to the fore some questions to stir up researchers minds
about the real challenges regarding the application of quantum computing.Comment: 2 pages, 1 figure, paper accepted for being presented in the upcoming
IEEE International Conference on Quantum Computing and Engineering - IEEE QCE
202
Photoproduction of pions and etas in nuclei
We calculate the cross sections for inclusive one-pion, two-pion and eta
photoproduction in nuclei in the photon energy range from 300 MeV to 900 MeV
within the framework of a semi-classical BUU transport model. Our results are
compared with existing experimental data and discussed with respect to a
calculation of the total photoabsorption cross section.Comment: 30 pages LaTeX including 13 postscript figure
Metodología de diseño, observación y cálculo de redes geodésicas exteriores para túneles de gran longitud = Methedology for designing, observing and computing external geodetic networks of long lengths tunnels
RESUMEN:
La realización de túneles de gran longitud para ferrocarriles ha adquirido un gran auge en los últimos años. En España se han abordado proyectos de estas características, no existiendo para su ejecución una metodología completa y contrastada de actuación. Las características geométricas, de observación y de trabajo en túneles hace que las metodologías que se aplican en otros proyectos de ingeniería no sean aplicables por las siguientes causas: separación de las redes exteriores e interiores de los túneles debido a la diferente naturaleza de los observables, geometría en el interior siempre desfavorable a los requerimientos de observación clásica, mala visibilidad dentro del túnel, aumento de errores conforme avanza la perforación, y movimientos propios del túnel durante su ejecución por la propia geodinámica activa. Los patrones de observación geodésica usados deben revisarse cuando se ejecutan túneles de gran longitud. Este trabajo establece una metodología para el diseño de redes exteriores.
ABSTRACT:
The realization of long railway tunnels has acquired a great interest in recent years. In Spain it is necessary to address projects of this nature, but ther is no corresponding methodological framework supporting them. The tunnel observational and working geometrical properties, make that former methodologies used may be unuseful in this case: the observation of the exterior and interior geodetical networks of the tunnel is different in nature. Conditions of visibility in the interior of the tunnels, regardless of the geometry, are not the most advantageous for observation due to the production system and the natural conditions of the tunnels. Errors increase as the drilling of the tunnel progresses, as it becomes problematical to perform continuous verifications along the itinerary itself. Moreover, inherent tunnel movements due to active geodynamics must also be considered. Therefore patterns for geodetic and topographic observations have to be reviewed when very long tunnels are constructed
Spin Asymmetry and Gerasimov-Drell-Hearn Sum Rule for the Deuteron
An explicit evaluation of the spin asymmetry of the deuteron and the
associated GDH sum rule is presented which includes photodisintegration, single
and double pion and eta production as well. Photodisintegration is treated with
a realistic retarded potential and a corresponding meson exchange current. For
single pion and eta production the elementary operator from MAID is employed
whereas for double pion production an effective Lagrangean approach is used. A
large cancellation between the disintegration and the meson production channels
yields for the explicit GDH integral a value of 27.31 b to be compared to
the sum rule value 0.65 b.Comment: 4 pages, 5 figures, revtex
Coastal altimetry products in the Strait of Gibraltar
This paper analyzes the availability and accuracy of coastal altimetry sea level products in the Strait of Gibraltar. All possible repeats of two sections of the Envisat and AltiKa ground-tracks were used in the eastern and western portions of the strait. For Envisat, along-track sea level anomalies (SLAs) at 18-Hz posting rate were computed using ranges from two sources, namely, the official Sensor Geophysical Data Records (SGDRs) and the outputs of a coastal waveform retracker, the Adaptive Leading Edge Subwaveform (ALES) retracker; in addition, SLAs at 1 Hz were obtained from the Centre for Topographic studies of the Ocean and Hydrosphere (CTOH). For AltiKa, along-track SLA at 40 Hz was also computed both from SGDR and ALES ranges. The sea state bias correction was recomputed for the ALES-retracked Envisat SLA. The quality of these altimeter products was validated using two tide gauges located on the southern coast of Spain. For Envisat, the availability of data close to the coast depends crucially on the strategy followed for data screening. Most of the rejected data were due to the radar instrument operating in a low-precision nonocean mode. We observed an improvement of about 20% in the accuracy of the Envisat SLAs from ALES compared to the standard (SGDR) and the reprocessed CTOH data sets. AltiKa shows higher accuracy, with no significant differences between SGDR and ALES. The use of products from both missions allows longer times series, leading to a better understanding of the hydrodynamic processes in the study area
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