Your search keyword '"Sacco, D"' showing total 5 results

1. ETHERNES: A new design of radionuclide source-based thermal neutron facility with large homogeneity area.

Author

Bedogni, R., Sacco, D., Gómez-Ros, J.M., Lorenzoli, M., Gentile, A., Buonomo, B., Pola, A., Introini, M.V., Bortot, D., and Domingo, C.

Subjects

*RADIOISOTOPES, *THERMAL neutrons, *POLYETHYLENE, *RADIATION dosimetry, *SCATTERING (Physics), *DETECTORS

Abstract

A new thermal neutron irradiation facility based on an 241 Am–Be source embedded in a polyethylene moderator has been designed, and is called ETHERNES (Extended THERmal NEutron Source). The facility shows a large irradiation cavity (45 cm×45 cm square section, 63 cm in height), which is separated from the source by means of a polyethylene sphere acting as shadowing object. Taking advantage of multiple scattering of neutrons with the walls of this cavity, the moderation process is especially effective and allows obtaining useful thermal fluence rates from 550 to 800 cm −2 s −1 with a source having nominal emission rate 5.7×10 6 s −1 . Irradiation planes parallel to the cavity bottom have been identified. The fluence rate across a given plane is as uniform as 3% (or better) in a disk with 30 cm (or higher) diameter. In practice, the value of thermal fluence rate simply depends on the height from the cavity bottom. The thermal neutron spectral fraction ranges from 77% up to 89%, depending on the irradiation plane. The angular distribution of thermal neutrons is roughly isotropic, with a slight prevalence of directions from bottom to top of the cavity. The mentioned characteristics are expected to be attractive for the scientific community involved in neutron metrology, neutron dosimetry and neutron detector testing. [ABSTRACT FROM AUTHOR]

Published

2016

2. CYSP: A new cylindrical directional neutron spectrometer. Conceptual design.

Author

Gómez-Ros, J.M., Bedogni, R., Bortot, D., Buonomo, B., Esposito, A., Gentile, A., Lorenzoli, M., Introini, M.V., Mazitelli, G., Moraleda, M., Pola, A., and Sacco, D.

Subjects

*NEUTRON spectrometers, *THERMAL neutrons, *MONTE Carlo method, *BORATES, *MATERIAL plasticity

Abstract

This communication describes in detail the design of a new cylindrical neutron spectrometer (CYSP) embedding 7 active thermal neutron detectors in a moderating structure made of polyethylene, borated plastic and lead. The device provides a strong directional response within the energy interval from thermal to hundreds of MeV, being nearly insensitive to neutrons coming from directions other than the cylinder axis with energies up to about 10 MeV. Therefore it will be especially suitable for applications where the neutron spectrum as a function of the emission angle needs to be measured. The Monte Carlo transport code MCNPX has been used to reach the final configuration for the spectrometer in terms of size, collimator, and arrangement of borated plastic and lead layers, number and position of the detectors. Moreover, MCNPX has been also used to calculate the response matrix of the instrument. [ABSTRACT FROM AUTHOR]

Published

2015

3. Experimental test of a newly developed single-moderator, multi-detector, directional neutron spectrometer in reference monochromatic fields from 144 keV to 16.5 MeV.

Author

Bedogni, R., Gómez-Ros, J.M., Pola, A., Bortot, D., Gentile, A., Introini, M.V., Buonomo, B., Lorenzoli, M., Mazzitelli, M., and Sacco, D.

Subjects

*MODERATORS (Fission reactors), *NEUTRON spectrometers, *MONOCHROMATIC light, *THERMAL neutrons, *NEUTRON counters, *RADIATION dosimetry

Abstract

A new directional neutron spectrometer called CYSP (CYlindrical SPectrometer) was developed within the NESCOFI@BTF (2011–2013) collaboration. The device, composed by seven active thermal neutron detectors located along the axis of a cylindrical moderator, was designed to simultaneously respond from the thermal domain up to hundreds of MeV neutrons. The new spectrometer condenses the performance of the Bonner Sphere Spectrometer in a single moderator; thus requiring only one exposure to determine the whole spectrum. The CYSP response matrix, determined with MCNP, has been experimentally evaluated with monochromatic reference neutron fields from 144 keV to 16.5 MeV, plus a 252 Cf source, available at NPL (Teddington, UK). The results of the experiment confirmed the correctness of the response matrix within an overall uncertainty of ±2.5%. The new active spectrometer CYSP offers an innovative option for real-time monitoring of directional neutron fields as those produced in neutron beam-lines. [ABSTRACT FROM AUTHOR]

Published

2015

4. Experimental characterization of semiconductor-based thermal neutron detectors.

Author

Bedogni, R., Bortot, D., Pola, A., Introini, M.V., Lorenzoli, M., Gómez-Ros, J.M., Sacco, D., Esposito, A., Gentile, A., Buonomo, B., Palomba, M., and Grossi, A.

Subjects

*SEMICONDUCTORS, *NEUTRON counters, *THICKNESS measurement, *EVAPORATION (Chemistry), *RADIATION damage, *RADIATION dosimetry

Abstract

In the framework of NESCOFI@BTF and NEURAPID projects, active thermal neutron detectors were manufactured by depositing appropriate thickness of 6 LiF on commercially available windowless p–i–n diodes. Detectors with different radiator thickness, ranging from 5 to 62 μm, were manufactured by evaporation-based deposition technique and exposed to known values of thermal neutron fluence in two thermal neutron facilities exhibiting different irradiation geometries. The following properties of the detector response were investigated and presented in this work: thickness dependence, impact of parasitic effects (photons and epithermal neutrons), linearity, isotropy, and radiation damage following exposure to large fluence (in the order of 10 12 cm −2 ). [ABSTRACT FROM AUTHOR]

Published

2015

5. The directional neutron spectrometer CYSP: further developments for measuring low intensity fields

Author

M. Lorenzoli, F. Re, D. Bortot, D. Sacco, Roberto Bedogni, M. Parisi, Wolfango Plastino, Andrea Pola, Carles Domingo, F. Signoretti, M. Moraleda, J.M. Gómez-Ros, Gómez Ros, Jm, Bedogni, R, Bortot, D, Domingo, C, Lorenzoli, M, Moraleda, M, Pola, A, Sacco, D, Plastino, W, Parisi, M, Signoretti, F, and Re, F.

Subjects

Bonner sphere, Physics, Radiation, 010504 meteorology & atmospheric sciences, Spectrometer, Physics::Instrumentation and Detectors, Astrophysics::High Energy Astrophysical Phenomena, Instrumentation, Neutron dosimetry, 01 natural sciences, Neutron temperature, Neutron time-of-flight scattering, 030218 nuclear medicine & medical imaging, Nuclear physics, 03 medical and health sciences, 0302 clinical medicine, Single moderator, Neutron detection, Neutron, Neutron spectrometry, Nuclear Experiment, 0105 earth and related environmental sciences

Abstract

This communication describes a recently developed directional neutron spectrometer consisting of multiple active thermal neutron detectors located along the axis of a moderating cylinder. The instrument has been developed by CIEMAT (Spain), INFN (Italy) and Politecnico di Milano (Italy) in the framework of Italian and Spanish collaboration projects. The spectrometer permits to measure neutron spectra in the energy range from thermal to 100–200 MeV, thus being able to characterize the complete neutron spectrum by unfolding the measured responses of the detectors. Because of the use of active thermal neutron detectors, it can provide a real time result of the measurement, including the integral quantities, total fluence and ambient dose equivalent.

Published

2017