eprintid: 55088 rev_number: 18 eprint_status: archive userid: 1903 dir: disk0/00/05/50/88 datestamp: 2019-05-24 17:44:21 lastmod: 2019-05-27 14:23:19 status_changed: 2019-05-24 17:44:21 type: conference_item metadata_visibility: show creators_name: Cevallos Robalino, Lenin Estuardo creators_name: García Fernández, Gonzalo creators_name: Lorente Fillol, Alfredo creators_name: Gallego Díaz, Eduardo F. creators_name: Vega-Carrillo, Héctor René creators_name: Guzmán-García, Karen Arlete creators_id: gf.garcia@alumnos.upm.es creators_id: alfredo.lorente@upm.es creators_id: eduardo.gallego@upm.es title: Analysis by Monte Carlo of Thermal Neutron Flux from a 241Am/9Be source for a system of trace analysis in materials publisher: Mexican Society of Irradiation and Dosimetry rights: by-nc-nd ispublished: pub subjects: fisica subjects: nuclear full_text_status: restricted pres_type: paper keywords: MCNP6; 241Am/9Be source; traces detection; NAA abstract: Neutron techniques to characterize materials have a wide range of applications, although the major development has been in the identification of terrorist threats with chemical, biological, radiological, nuclear and explosive, (CBRNE) materials. The main advantage is the high penetration of neutrons in matter and therefore threats as explosives, drugs or landmines can be detected even when they are hidden under layers of earth, or elements of high density. Through Monte Carlo techniques employing the MCNP6 code, three different configurations with polyethylene cylinders were simulated to choose the most optimal geometry of this part of a detection device. The thermal neutron irradiation system is based in a 241Am/9Be source inside of polyethylene cylinders moderators with different sizes. The designed system provides an irradiation chamber allowing take advantage of the backscattering neutrons, multiplied by the source strength (6.64 s-1 measured on 1969, date UPM certificate), achieving thermal fluence rates until 530 cm-2 s -1 . Once the geometry and configuration of the system has been optimized through different simulations, the theoretical model was replicated in the neutronic hall of Energy Engineering Department of Universidad Politécnica de Madrid (EED-UPM), carried out several experimental measures using a neutron detector based in BF3. The main conclusion is a high agreement between MCNP results and experimental values measured at the UPM neutronics hall. Consequently, the optimized model could be employed in future laboratory experiments, both in the identification of substances and in the calibration of neutron dosimetry equipment. The final aim of this work has been to design the geometry of moderator and to select the neutron source position, to optimize the thermal neutrons flux in the area where the sample to analyze must be placed. This optimal configuration can be employed hereafter in detection of trace in substances or materials, through the NAA (Neutron Activation Analysis) method. date_type: published date: 2018 pagerange: 70-85 event_title: XVIII INTERNATIONAL SYMPOSIUM ON SOLID STATE DOSIMETRY (ISSSD 2018) event_location: Oaxaca, México event_dates: September 24 to 28th, 2018 event_type: conference institution: Industriales department: Ingenieria_energetica_2014 refereed: TRUE book_title: XVIII INTERNATIONAL SYMPOSIUM ON SOLID STATE DOSIMETRY (ISSSD 2018). PROCEEDINGS official_url: http://www.smid.org.mx/eng.htm comprojects_type: CM comprojects_code: IND2017/AMB7797 comprojects_title: Contributions to Shielding and Dosimetry of Neutrons in CPTC citation: Cevallos Robalino, Lenin Estuardo and García Fernández, Gonzalo and Lorente Fillol, Alfredo and Gallego Díaz, Eduardo F. and Vega-Carrillo, Héctor René and Guzmán-García, Karen Arlete (2018). Analysis by Monte Carlo of Thermal Neutron Flux from a 241Am/9Be source for a system of trace analysis in materials. In: "XVIII INTERNATIONAL SYMPOSIUM ON SOLID STATE DOSIMETRY (ISSSD 2018)", September 24 to 28th, 2018, Oaxaca, México. pp. 70-85. document_url: https://oa.upm.es/55088/1/INVE_MEM_2018_301337.pdf