182 research outputs found
Nonperturbative QED Processes at ELI-NP
The present paper analyses the current results and pursuits the main steps
required for the design of SF-QED experiments at High-Power Laser System (HPLS)
of ELI-NP in Magurele, Romania. After a brief analysis of the first experiment
(E-144 SLAC), which confirmed the existence of non-linear QED interactions of
the high energy electrons with the photons of a laser beam, we went on to
present fundamental QED processes possible to be studied at ELI-NP in a
multi-photon regime. The kinematics and characteristic parameters of the laser
beam interacting with electrons were presented. In the preparation of an
experiment at ELI-NP, the analysis of the kinematics and dynamics of the
non-linear QED interaction processes with the physical vacuum are required.
Initially, the linear QED processes and the corresponding Feynman diagrams that
allow to determine the amplitude of these processes are reviewed. Based on
these amplitudes, the cross sections of the processes can be obtained. For
multi-photon interactions it is necessary to adapt the technique of Feynman
diagrams from linear QED processes to the non-linear ones, by moving to the
quantum field description with dressed Dirac-Volkov states, for particles in
intense EM field. They then allow evaluation of the amplitude of the physical
processes and ultimately the determination of the corresponding cross section.
The SF-QED processes of multi-photon interactions with strong laser fields, can
be done taking into account the characteristics of the existing facilities at
ELI-NP in the context of the experimental production of electron-positron-pairs
and of energetic gamma-rays. We show also some upcoming experiments similar to
ours, in various stages of preparation.Comment: Presented at Bucharest University Meeting 2023
https://ssffb.fizica.unibuc.ro/SSFFB/Section.php?SectID=22
Probing the Structure of Halo Nuclei
Our understanding of halo nuclei has so far relied on high-energy scattering
and reactions, but a number of uncertainties remain. I discuss in general terms
the new range of observables which will be measured by experiments around the
Coulomb barrier, and how some details of the reaction mechanisms still need to
be clarified.Comment: Proceedings of FUSION97 conference (March 1997), South Durras,
Australia. Submitted to J. Physics G: special issue `Heavy ion collisions at
near barrier energies'. No figures; uses IOPConf.sty (included
Preliminary study of the 19F(7Li,7Be)19O reaction at 52 MeV with MAGNEX
The 19F(7Li,7Be)19O charge-exchange reaction at 52 MeV incident energy has been performed at INFN-LNS in Catania using the MAGNEX spectrometer. The use of an algebraic ray-reconstruction technique has allowed to extract the 19O excitation energy spectrum and the experimental angular distributions obtained with a single angular setting of the spectrometer
The DEAR experiment on DAΦNE
DEAR is one of the first experiments at the new DAΦNE Ø-factory at the Laboratori Nazionali di Frascati dell'INFN. The objective of the DEAR experiment is to perform a precision measurement of the strong interaction shifts and widths of the K-series lines in kaonic hydrogen and the first observation of the same quantities in kaonic deuterium. The aim is to obtain a precise determination of the isospin-dependent kaon-nucleon scattering lengths which will represent a breakthrough in KN low-energy phenomenology and will allow us to determine the kaon-nucleon sigma terms. The sigma terms give a direct measurement of chiral symmetry breaking and are connected to the strangeness content of the proton. First results on background measurements with the DEAR NTP setup installed on DAΦNE are reported
First measurement of kaonic helium-3 X-rays
The first observation of the kaonic 3He 3d - 2p transition was made using
slow K- mesons stopped in a gaseous 3He target. The kaonic atom X-rays were
detected with large-area silicon drift detectors using the timing information
of the K+K- pairs of phi-meson decays produced by the DAFNE e+e- collider. The
strong interaction shift of the kaonic 3He 2p state was determined to be -2+-2
(stat)+-4 (syst) eV.Comment: Accepted for publication in Phys. Lett.
A New Measurement of Kaonic Hydrogen X rays
The system at threshold is a sensitive testing ground for low
energy QCD, especially for the explicit chiral symmetry breaking. Therefore, we
have measured the -series x rays of kaonic hydrogen atoms at the DANE
electron-positron collider of Laboratori Nazionali di Frascati, and have
determined the most precise values of the strong-interaction energy-level shift
and width of the atomic state. As x-ray detectors, we used large-area
silicon drift detectors having excellent energy and timing resolution, which
were developed especially for the SIDDHARTA experiment. The shift and width
were determined to be eV and
eV, respectively. The new
values will provide vital constraints on the theoretical description of the
low-energy interaction.Comment: 5 figures, submitted to Physics Letters
Investigation of 76Se(18O, 17O)75Se and 76Se(18O, 19F)75As transfer reactions at 15 MeV/u in a multi-channel approach within the NUMEN project
. - A full-comprehensive study of heavy-ion induced nuclear reac-tions is a powerful tool to characterize nuclear mean-field features as well as few-nucleon correlations in low-lying nuclear states. In this context, the investigation of 76Se(18O,17O)75Se and 76Se(18O,19F)75As transfer reactions was performed with the NUMEN project, aiming at providing data-driven information to constrain nu-clear structure models for the 76Se nucleus. This nucleus is under investigation since it is the daughter nucleus of 76Ge in the neutrinoless double beta decay (0 nu 1313) pro-cess. The experiment was performed at INFN-LNS where the 18O beam impinged the 76Se target and the reaction ejectiles were momentum analyzed by the MAGNEX magnetic spectrometer
A constrained analysis of the 40Ca(18O,18F)40K direct charge exchange reaction mechanism at 275 Mev
The40 Ca(18 O,18 F)40 K single charge exchange (SCE) reaction is explored at an incident energy of 275 MeV and analyzed consistently by collecting the elastic scattering and inelastic scattering data under the same experimental conditions. Full quantum-mechanical SCE calculations of the direct mechanism are performed by including microscopic nuclear structure inputs and adopting either a bare optical potential or a coupled channel equivalent polarization potential (CCEP) constrained by the elastic and inelastic data. The direct SCE mechanism describes the magnitude and shape of the angular distributions rather well, thus suggesting the suppression of sequential multi-nucleon transfer processes
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