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18 results on '"Istituto Nazionale di Fisica Nucleare. Padova"'

1. Role of continuum in nuclear direct reactions with one-neutron halo nuclei: A one-dimensional model

Author

Universidad de Sevilla. Departamento de Física Atómica, Molecular y Nuclear, Istituto Nazionale di Fisica Nucleare. Padova, United Kingdom Science and Technology Facilities Council (STFC), Moschini, Laura, Moro Muñoz, Antonio Matías, Vitturi, Andrea, Universidad de Sevilla. Departamento de Física Atómica, Molecular y Nuclear, Istituto Nazionale di Fisica Nucleare. Padova, United Kingdom Science and Technology Facilities Council (STFC), Moschini, Laura, Moro Muñoz, Antonio Matías, and Vitturi, Andrea

Abstract

Background: The problem of the scattering of a one-neutron halo nucleus by another nucleus might involve an extremely complicated solution, particularly when breakup and rearrangement channels are to be considered. Purpose: We construct a simple model to study the evolution of a single-particle wave function during the collision of a one-dimensional potential well by another well. Method: Our one-dimensional model provides the essential three-body nature of this problem, and allows for a much simpler application and assessment of different methods of solution. To simplify further the problem, we assume that the potential well representing the projectile moves according to a predetermined classical trajectory, although the internal motion of the “valence” particle is treated fully quantum mechanically. This corresponds to a semiclassical approach of the scattering problem, applicable in the case of heavy projectile and target. Different approaches are investigated to understand the dynamics involving one-body halo-like systems: the “exact” time-dependent solution of the Schrödinger equation is compared to a numerical continuum-discretized coupled-channels (CC) calculation presenting various model cases including different reaction channels. Results: This framework allows us to discuss the reaction mechanism and the role of the continuum, the inclusion of which in the CC calculation results to be crucial to reproduce the exact solution, even when the initial and final states are well bound. Conclusions: The dynamical situations under study can be linked to analogous problems solved in a threedimensional (3D) CC framework, so the present model provides a simple tool to understand the main challenges experienced in the usual 3D models with the treatment of the continuum

Published
2021

6. Role of continuum in nuclear direct reactions with one-neutron halo nuclei: a one-dimensional model

Author

Andrea Vitturi, A. M. Moro, Laura Moschini, Universidad de Sevilla. Departamento de Física Atómica, Molecular y Nuclear, Istituto Nazionale di Fisica Nucleare. Padova, and United Kingdom Science and Technology Facilities Council (STFC)

Subjects
Physics, Nuclear Theory, 010308 nuclear & particles physics, Scattering, Semiclassical physics, FOS: Physical sciences, Halo nucleus, 01 natural sciences, Nuclear Theory (nucl-th), Classical mechanics, Exact solutions in general relativity, 0103 physical sciences, Neutron, Halo, 010306 general physics, Wave function, Quantum
Abstract

Background: The problem of the scattering of a one-neutron halo nucleus by another nucleus might involve an extremely complicated solution, particularly when breakup and rearrangement channels are to be considered. Purpose: We construct a simple model to study the evolution of a single-particle wave function during the collision of a one-dimensional potential well by another well. Method: Our one-dimensional model provides the essential three-body nature of this problem, and allows for a much simpler application and assessment of different methods of solution. To simplify further the problem, we assume that the potential well representing the projectile moves according to a predetermined classical trajectory, although the internal motion of the “valence” particle is treated fully quantum mechanically. This corresponds to a semiclassical approach of the scattering problem, applicable in the case of heavy projectile and target. Different approaches are investigated to understand the dynamics involving one-body halo-like systems: the “exact” time-dependent solution of the Schrödinger equation is compared to a numerical continuum-discretized coupled-channels (CC) calculation presenting various model cases including different reaction channels. Results: This framework allows us to discuss the reaction mechanism and the role of the continuum, the inclusion of which in the CC calculation results to be crucial to reproduce the exact solution, even when the initial and final states are well bound. Conclusions: The dynamical situations under study can be linked to analogous problems solved in a threedimensional (3D) CC framework, so the present model provides a simple tool to understand the main challenges experienced in the usual 3D models with the treatment of the continuum United Kingdom Science and Technology Facilities Council (STFC) ST/L005743/1.

Published
2020
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16. Electromagnetic field affects the voltage-dependent potassium channel Kv1.3.

Author

Cecchetto C, Maschietto M, Boccaccio P, and Vassanelli S

Subjects
Animals, CHO Cells, Cricetulus, Electrophysiological Phenomena radiation effects, Lymphocyte Activation radiation effects, T-Lymphocytes immunology, T-Lymphocytes metabolism, T-Lymphocytes radiation effects, Electromagnetic Fields, Kv1.3 Potassium Channel metabolism
Abstract

Purpose: Theoretical and experimental evidences support the hypothesis that Extremely Low-Frequency Electromagnetic Fields (ELF-EMF) can modulate voltage-gated channels. In this work we investigated the effect of ELF-EMF on K v 1.3, a member of the family of the voltage-gated potassium channels that is thought to be involved in key physiological functions, including the regulation of T-cells activation during the immune response., Materials and Methods: K v 1.3 expressing CHO-K1 cells were exposed to a 20 Hz electromagnetic field at two different intensities: 268 μT and 902 μT. K v 1.3 potassium currents were recorded by whole-cell patch-clamp before, during and after field exposure., Results: We found that the K v 1.3 current was increased significantly by the ELF-EMF in a subpopulation of CHO-K1 cells. The increase developed after a few seconds from the start of exposure, reached a steady-state and took several minutes to return to the baseline after field removal., Conclusions: These findings suggest that K v 1.3 may mediate interactions between ELF-EMF and living cells, disclosing new research opportunities on the molecular mechanisms with which electromagnetic fields affect physiological and pathological processes, including immunomodulation, inflammation and cancer.

Published
2020
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17. Gamma-ray spectroscopy at MHz counting rates with a compact LaBr 3 detector and silicon photomultipliers for fusion plasma applications.

Author

Nocente M, Rigamonti D, Perseo V, Tardocchi M, Boltruczyk G, Broslawski A, Cremona A, Croci G, Gosk M, Kiptily V, Korolczuk S, Mazzocco M, Muraro A, Strano E, Zychor I, and Gorini G

Abstract

Gamma-ray spectroscopy measurements at MHz counting rates have been carried out, for the first time, with a compact spectrometer based on a LaBr 3 scintillator and silicon photomultipliers. The instrument, which is also insensitive to magnetic fields, has been developed in view of the upgrade of the gamma-ray camera diagnostic for α particle measurements in deuterium-tritium plasmas of the Joint European Torus. Spectra were measured up to 2.9 MHz with a projected energy resolution of 3%-4% in the 3-5 MeV range, of interest for fast ion physics studies in fusion plasmas. The results reported here pave the way to first time measurements of the confined α particle profile in high power plasmas of the next deuterium-tritium campaign at the Joint European Torus.

Published
2016
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18. A new FSA approach for in situ γ ray spectroscopy.

Author

Caciolli A, Baldoncini M, Bezzon GP, Broggini C, Buso GP, Callegari I, Colonna T, Fiorentini G, Guastaldi E, Mantovani F, Massa G, Menegazzo R, Mou L, Alvarez CR, Shyti M, Zanon A, and Xhixha G

Subjects
Algorithms, Calibration, Italy, Least-Squares Analysis, Scintillation Counting, Sodium Iodide, Gamma Rays, Radioisotopes analysis, Spectrum Analysis instrumentation, Spectrum Analysis methods
Abstract

An increasing demand of environmental radioactivity monitoring comes both from the scientific community and from the society. This requires accurate, reliable and fast response preferably from portable radiation detectors. Thanks to recent improvements in the technology, γ spectroscopy with sodium iodide scintillators has been proved to be an excellent tool for in-situ measurements for the identification and quantitative determination of γ ray emitting radioisotopes, reducing time and costs. Both for geological and civil purposes not only (40)K, (238)U, and (232)Th have to be measured, but there is also a growing interest to determine the abundances of anthropic elements, like (137)Cs and (131)I, which are used to monitor the effect of nuclear accidents or other human activities. The Full Spectrum Analysis (FSA) approach has been chosen to analyze the γ spectra. The Non Negative Least Square (NNLS) and the energy calibration adjustment have been implemented in this method for the first time in order to correct the intrinsic problem related with the χ(2) minimization which could lead to artifacts and non physical results in the analysis. A new calibration procedure has been developed for the FSA method by using in situ γ spectra instead of calibration pad spectra. Finally, the new method has been validated by acquiring γ spectra with a 10.16 cm × 10.16 cm sodium iodide detector in 80 different sites in the Ombrone basin, in Tuscany. The results from the FSA method have been compared with the laboratory measurements by using HPGe detectors on soil samples collected particular, the (137)Cs isotopes has been implemented in the analysis since it has been found not negligible during the in-situ measurements., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published
2012
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