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Associacion Latino-Americana de Fisica Nuclear y Aplicaciones - ALAFNA

Associacion Latino-Americana de Fisica Nuclear y Aplicaciones - ALAFNA. Alinka Lépine-Szily (co-chair of ALAFNA). Meeting NuPECC, Sevilla 08/18/2012. CHART OF SANTIAGO The “Association of Latin American Nuclear Physics and

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Associacion Latino-Americana de Fisica Nuclear y Aplicaciones - ALAFNA

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  1. Associacion Latino-Americana de Fisica Nuclear y Aplicaciones- ALAFNA Alinka Lépine-Szily (co-chair of ALAFNA) Meeting NuPECC, Sevilla 08/18/2012

  2. CHART OF SANTIAGO The “Association of Latin American Nuclear Physics and Applications” (ALANFA) was formed in Santiago, Chile on Dec. 19, 2009, by representatives of Argentina, Brazil, Chile, Colombia, Mexico, Peru and Venezuela. In Spanish is called “Asociación Latino Americana de Física Nuclear y Aplicaciones” ALAFNA In Portuguese is called “Associação Latino Americana de Física Nuclear e Aplicações” ALAFNA Chairs of ALANFA: Andrés Kreiner (Argentina) Alinka Lépine-Szily (Brazil)

  3. Steering Committee (SC) of ALAFNA is formed by the 15 original founders: Ricardo Alarcon (Arizona State Univ., USA) Hugo Arellano (U. of Chile, Chile) Haydn Barros (U.Simon Bolivar, Venezuela) Maria Ester Brandan (UNAM, Mexico) Roelof Bijker (UNAM, Mexico) Laszlo Sajo Bohus (U.Simon Bolivar, Venezuela) Fernando Cristancho (UNal, Colombia) Paulo Gomes (U. Fed. Fluminense, Brazil) Carlos Granja(Inst.Exp.Appl.Phys. Czech Tech.U. Czech Rep.) Andrés Kreiner (Tandar, CNEA, Argentina) Chair Alinka Lépine-Szily (USP, Brazil) Chair Rubens Lichtenthäler (USP, Brazil) Modesto Montoya (Inst. Per. Em. Nucl., Peru) Roberto Morales (U. of Chile, Chile) Alberto Pacheco (Tandar, CNEA, Argentina)

  4. Objectives of ALAFNA To strengthen ties among the Latin American Communities doing nuclear research and applications to foster collaborations and promotion of activities, To educate the scientific community and the general public through the promotion of nuclear physics and the peaceful uses of nuclear technology, To do periodic overall assessments of nuclear science in Latin America in the context of world wide activities, and To discuss at a multi-national level future planning of nuclear science activities in Latin America

  5. Role of the Steering Committee: -establishment of ALAFNA governance rules -divulgation of ALAFNA in the scientific community -divulgation of ALAFNA within governments of Latin America with interest in nuclear science and applications ALAFNA homepage was installed on the website of the IX Latin American Symposium on Nuclear Physics and Applications” (LASNPA) july 18-22,2011, Quito, Ecuador http://www.lasnpa-quito2011.org/alafna.org

  6. 07/22/2011: ALAFNA meeting after IX Latin American • Symposium on Nuclear Physics and Applications (LASNPA). • Agenda: Bylaws of ALAFNA • The bylaws of the Association were discussed by all presents. • Some conclusions: • The association should be open to all nuclear scientists • of the region (different from ANPHA or NUPECC) • The executive board should have 1 representative of • each member country. • Proposal of Chile and Venezuela: Alafna should promote • education for general public and schools on all levels, • to compensate the negative effect on the general publics • perception on nuclear science due to the Fukushima accident. • Agenda: ANDES project • Construction of an underground laboratory with international visibility in the tunel Agua Negra, between Argentina and Chile, below the Andes. Situated between 3.5-5km on Argentinian side, Thickness of the rock >1500 m.

  7. Situated between 3.5-5km on Argentinian side, Thickness of the rock >1500 m. • The present members have discussed the project and those of the steering commiteevoted in favour of an endorsement. • However there is a worry about the cost of the project and the maintenance of the present funding of existing projects. • Also it was stated that the project should benefit the local and regional technological developement. Accelerator developement-Tandar

  8. Common activities since the last meeting (Dec. 19, 2009) • Adoption of the Chart of Santiago (January 2010) • July 2-4, 2010 two-Day Symposium on International Nuclear Science • of the IUPAP Working Group WG.9 at TRIUMF • July 10, 2010: National Academy of Sciences (NP2010) • Text in the final report • July 2011 IX Symposium under the auspices of IUPAP (Quito) • July 2011 Presence at IUPAP WG9 meeting on 07/24/2011 at MIT • February 2012, Experimental Nuclear Physics Summer School at USP • with expressive latin american participation. • August 2012 Presence at IUPAP WG9 meeting on 08/18/2012 at • RIKEN • -October 2012 Presence at NuPECC meeting Sevilla. • -26-30 Nov. 2012 Andean School “Nuclear Physics in the 21st century” • in Bogota, Colombia.

  9. Latin American Symposia on Nuclear Physics and • Applications • Caracas, Venezuela • Caracas, Venezuela • San Andrés, Colombia • Ciudad de México, México • 2003 Santos, Brazil • Iguazu, Argentina • Cuzco, Peru • Santiago, Chile • Quito, Ecuador • 2013 Montevideo, Uruguay • Scope: the dissemination of the major theoretical and experimental • advances in the field of nuclear science and its applications. • The main topics to be covered are: Nuclear Structure and Reactions, • Nuclear and Particle Astrophysics, Cosmic Rays, Hadron Structure • and Phases of Nuclear Matter, Tests of Fundamental Symmetries • and Properties of Neutrinos, Nuclear Instrumentation and Facilities: • Radiation Detectors and Sources, and Applications in Medicine • (Biomedical Imaging, Radiotherapy),Art/Archeology, Energy, Space and • International Security.

  10. Scientific Program of the IX LASNPA • Copiar o pdf fa website do simp. • Number of participants: 120 • Less than in Chile (170), due to less local • Participation, air fares expensive from • Brazil and Argentina, higher fee. • Next Symposium dec. 2013-Montevideo • -Uruguay 31 plenary talks

  11. 58 talks in parallel sessions http://videos.physics.asu.edu/LatinIX/program-IX-Latin-June30.pdf

  12. Number of participants: 125 • Less than in Chile (170), due to less local • participation, air fares expensive from Brazil and Argentina, higher fee. • Next Symposium dec. 2013-Montevideo • -Uruguay

  13. General Informations on the status of • Nuclear Physics in • Argentina • Brazil • Chile • Mexico • Venezuela • Ecuador • Colombia • Peru

  14. Nuclear Physics and Applications in Argentina and Cooperation in Latin America A.J.Kreiner1,2,3. 1Departamento de Física, CNEA, Atomic Energy Commission Arg. 2Escuela de Ciencia y Tecnología. Universidad de San Martin, Arg. 3CONICET (National Research Council), Argentina.

  15. Major facility: TANDAR 20 MV Tandem (Pelletron) Facility's major experimental instrumentation and its capabilities: • - QDD magnetic spectrometer. • - Microbeam facility (beam spots of about 1μ2) with high resolution X-ray detection. • - External beam irradiation facility with on-line dose determination. • - Heavy-ion identification based on a time-of-flight facility (start and stop signals derived from microchannel plates) followed by a Bragg spectrometer or solid state detectors. • - 30-inch diameter multipurpose scattering chamber. • - Irradiation chamber for the simulation of outer-space environmental conditions. • Ion implanter. • Number of actual, active users of the facility: 51 • Number of a) permanent staff, as scientific, technical, and administrative staff, employed by the lab: 46 and b) temporary staff (including graduate students and postdoctoral researchers on the facility’s payroll): 12

  16. Research Programs The main experimental and theoretical research lines related to Nuclear Physics and its applications are the following: • Low-energy nuclear physics: Nuclear structure, nuclear reactions, collective nuclear excitations and giant resonances, break-up reactions and their influence on fusion reactions involving weakly bound nuclei; fusion barrier distributions. • High-energy nuclear physics: Hadronic models based on QCD. Phase structure of strong interactions.

  17. Other CNEA centers • 1.2 EZEIZA Atomic Center: Isotope production (40 MeV proton Cyclotron). Nuclear metrology (radiation measurements, standards for gammas, betas, neutrons). Reactor physics (RA-3 research reactor). BNCT with reactors. 60Co irradiators. Isotope production. (150 people). • 1.3 BARILOCHE Atomic Center: Neutron physics (electron LINAC for neutron production thru photonuclear reactions, 10 people). Reactor physics and engineering RA-6 (School of Nuclear Engineering). Clinical trials in BNCT (4). Auger physics (4). • 1.4 School of Nuclear medicine (Mendoza). PET center in association with National Cancer Institute (Buenos Aires).

  18. NUCLEAR PHYSICS RESEARCH IN BRAZIL Alinka Lépine-Szily

  19. Number of scientists and graduate students in Nuclear Physics in Brasil in 2010 In 2005 (under-estimated) 96 25 170 291 2005: 63 universities 2009: 131 universities (http://www.universidades.com.br/brasil.htm) 1999: 2.7 millions of students, 6.9% 2004: 4.16 millions of students 2009: 4.88 millions of students, 13.9% SP

  20. State funding agencies: largest is FAPESP (Fundação de Apoio à Pesquisa do Estado de São Paulo) State funding agencies: largest is FAPESP (Fundação de Apoio à Pesquisa do Estado de São Paulo) RIBRAS Major Facility for Nuclear Physics research 8 MV Pelletron Tandem University of São Paulo: Institute of Physics 8 MV tandem 3-5 MeV.A Local facility: Very important for graduate student training, 56 MS and PhD thesis in last 10 years

  21. Facility´s major experimental • instrumentation and capabilities: • Radioactive Ion Beam Brasil • (RIBRAS) 2 superconducting solenoids • can select and focus radioactive beams • produced by transfer reactions B=6.5T. • 6He,8Li,7,10Be,8B,17,18F etc beams. • 2. Two large position sensitive • neutron detectors (Neutron wall) • 3. Gamma-ray+charged particle • spectrometer (SACI-PERERE) • 4. Enge split-pole spectrometer • 5. Multi-purpose scattering chamber. • 6. Large scattering chamber

  22. Research Programs: Low-energy nuclear physics:T,E Low energy reaction and structure studies with stable and radioactive beams, break-up, fusion, nuclear astrophysical reactions, Gamma-spectrosopy, nuclear structure with light-ion transfer reactions. T: 3-body description of halo nuclei, fusion models for superheavies, weak-interaction for r-process High-energy nuclear physics: Theory: Hadronic models in QCD, Phases of nuclear matter, nuclear astrophysics within relativistic models(hadronic and quark stars), Experimental: Auger project STAR collaboration at RHIC, Alice collaboration at LHC PHENIX collaboration at RHIC, Atlas collab. at LHC 1111118th 118th Intn Few-Body Problems in PhysIcs 8th International IUPAP Conference on Few-Body Problems in PhysIcs

  23. Highlights of recent results from RIBRAS, first and unique • radioactive facility in Latin America • elastic scattering of halo nuclei on light, medium mass, heavy nuclei • 6He +9Be ,27Al, 51V,120Sn,7Be + 9Be, 51V,8Li + 9Be, 51V • 8B + 27Al,8Li, 7Be , 10Be on 12C ,8Li + p, 6He + p • Resonant transfer reactions :p(8Li,4He)5He p(8Li,4He)5He R-matrix fits Ecm(MeV)

  24. Main Institutions: • São Paulo state (80% experimental, 35% theoretical • activity) • São Paulo USP E, T research in low, high energy nuclear physics • IFT/UNESP Hadronic models in QCD, 3-body models of halo nuclei T • ITA 3-body models of halo nuclei, relativistic nuclear structure T • Unicamp; Auger project, RHIC, LHC E • IPEN: gamma spectrosopy, instrumentation and applications E • 2. Rio de Janeiro • UFRJ Theoretical studies of Nuclear Reactions, Hadron Physics T • UFF Low energy Nuclear Reactions T,E AMS E • CBPF Hadron Physics, fusion models for SHE, r-process T • 3. Southern states, Paraná, UEL, applications, Gamma and X-ray spectrometry for material analysis E • Santa Catarina, UFSC nuclear astrophysics within relativistic models(hadronic and quark stars) T • Rio Grande do Sul, UFRGS, FURGhadron physics using QCD T

  25. International Collaborations: Experimental: 1.Strong collaboration between Pelletron (USP) -Tandar Argentina and UFF (Niteroi, Brasil) Pro-Sul CNPq-CONICET 2. STAR, PHENIX collaboration at RHIC 3. Alice collaboration at LHC 5. Collaborations: Legnaro, Catania, Sevilla, Madrid, U. Notre Dame, CNS-U.Tokyo, GANIL, ANU Theory: U.La Plata (Arg.), Cuba, U. Coimbra, Tandar, National Astronomical Observatories, Chinese Academy of Sciences , Oxford Univ., Univ. Tennessee, Univ. Sydney, Univ. Aarhus. Difficulties: Small groups, Heavy travel expenses, little money for graduate students

  26. Funding: Brazil Federal Funding Agency: Conselho de Desenvolvimento Cientifico e Tecnologico (CNPq ). State funding agencies: Ex: Fundacao de Amparo a Pesquisa de Estado de Sao Paulo (FAPESP). ~50 M$/year, 2.5M$/year for Nuclear Physics, (include grants, student fellowships, does not include salaries, which are paid by Univ, Intitutes) Science without Frontiers:200.000 undergraduate students/year are being t for 1 year abroad. Funding: less in other Latin American countries Future projects in Brazil:RMB (Multipurpose Research Reactor) of 30MW for radioisotope production and applications, Argentinian-Brazilian collaboration OPAL reactor, totally funded 900MR$=350MEuro

  27. XXXV Nuclear Physics Workshop in Brazil 2-6 september 2012, Maresias, Brazil 24 plenary talks (14 international), 191 participants, Parallel session, posters New 14C-AMS facility installed at Universidade Federal Fluminense, Niteroi, Brazil . First in South America.

  28. Nuclear Physics in Chile Roberto Morales Universidad de Chile

  29. UNIVERSITY OF CHILE VAN DE GRAAFF LABORATORY Acelerador Van de Graaff. 3.75 MeV Sistemas de espectroscopía gamma, rayos X, alfa P.A. Miranda, M. A. Chesta, S. A. Cancino, J. R. Morales, M. I. Dinator, J. A. Wachter and C. Tenreiro Nuclear Instruments and Methods in Physics Research B 248 (2006) 150-154

  30. Recursos humanos.-´ Investigadores Universidad de Chile Arellano, Hugo Dr. UCH Cancino, Simón M.Cs. UCH Dinator, Maria I. M.Cs. UCH * Morales, J. Roberto Dr. UCH Miranda, Pedro Dr. UCH Colaboradores Robert Flocchini. UC Davis, California, U.S.A. Javier Miranda. UNAM, México. Andrea Seelenfreund. Universidad Academia de Humanismo Cristiano Rafael Correa. Universidad Tecnológica Metropolitana Sergio Montes. Universidad de Santiago Claudio Tenreiro. Universidad de Talca Mario Ávila. Comisión Chilena de Energía Nuclear Raúl Morales. Fac. Ciencias, Universidad de Chile Margarita Préndez. Fac. Ciencias Química y Farmacéutica. U. de Chile Diego Salazar. Fac. Ciencias Sociales. U. de Chile Raúl Muñoz. Fac. de Ciencias Físicas y Matemáticas. U. de Chile

  31. Roelof Bijker and María Ester Brandan UNAM Nuclear Physics in Mexico

  32. Experimental facilities • 6 MV Tandem (ININ) • 0.7 and 5.5 MV Van de Graaf and 3 MV Pelletron (IFUNAM) • Instrumentation laboratories • Pyramid of the Sun and HAWC (IFUNAM) • Detector lab (ICNUNAM) • Instrumentation labs (Puebla and UMSNH)

  33. Where? • UNAM, DF, Instituto de Física, Instituto de Ciencias Nucleares, Fac de Ciencias • ININ and Univ. Autónoma del Estado de México, Toluca • Cinvestav, DF y Mérida • Universidad Veracruzana, Xalapa • Benemérita Universidad Autónoma de Puebla, Puebla • Universidad Michoacana San Nicolás de Hidalgo, Morelia • Universidad Autónoma de Zacatecas, Zacatecas • Universidad Autónoma de Sinaloa

  34. How many? • About 20 (10) in basic research and its instrumentation • About 30 (10) in applied nuclear physics and its instrumentation • Graduate students: About 50

  35. Subjects: Basic science • Nuclear structure (symmetries, cluster models, nuclear masses, double b decay) T • Hadronic physics (LE QCD, quark models) T • Cosmic rays (Pyramid of the Sun, HAWC) E • Neutron physics, fundamental symmetries E • International collaborations: T, E • ALICE (IFUNAM, ICNUNAM, Cinvestav, BUAP, UAS) • Auger (ICNUNAM) • RIB ORNL, Notre Dame (IFUNAM, ICNUNAM) • LANL (IFUNAM)

  36. Subjects: Applied science • Medical physics (IFUNAM, ICNUNAM, School of Medicine UNAM, UAZ) E • Radiation physics E • RBS, PIXE, other techniques

  37. Nuclear Physics and Applications in Ecuador Institutions / activity www.epn.edu.ec Escuela Politécnica Nacional (EPN), Quito Dept. de Física y Astronomía Dept. de Ciencias Nucleares • Bulk irradiations (electron, gamma) • Atomic absorption (X-rays, UV) • Fluorescence and mass analysis linac Co irradiator www.usfq.edu.ec • Particle physics (D0 Fermilab) Universidad San Francisco de Quito, Quito „National Bureau of Control, License and Studies of Nuclear Sciences“(former Atomic Energy Commission) www.meer.gov.ec • Regulations, safeguards • Nuclear techniques (element analysis) Dependency of the Ministry of Electricity and Renewable Energy Laboratories (e.g. Dosimeter and radiation monitor calibration). www.solca.med.ec Oncology Society SOLCA, Quito • Medical Physics • Radiotherapy (electron, photon) commercial radiotherapy linacs (e–,g) Hospitals (oncology), Quito, Guayaquil • Radiotherapy treatments (electron, photon) commercial radiotherapy linacs (e–,g)

  38. Nuclear Physics inVENEZUELA

  39. OIEA LASER Spectrometer δ18 Universidad de los Andes High Energy Group (3 Ph.D) Dr. Luis Nuñez Hydrogeology Group (2 Ph.D) Dr. Hervé Jegat I.V.I.C. 60-Co Irradiation Facility. Ing. Paolo Traversa Secondary Calibration Lab. Dr. Lila Carrizalez Medical Physics Masters Courses Official National Training Courses in Radioprotection Environmental Radioactivity Universidad Central de Venezuela Medical Physics Masters Courses. Dr. Rafael Martín (20-25 students / year) Lab. Applications Nuclear Tech. In Industry. Dr. Héctor Constan. (L.Cintillation) Ministery of Energy Comisión Nacional de Energía Atómica, National Nuclear Authority. Dr. Héctor Constan Regularions & Permissions. Training (Through IAEA) Monitoring for evaluations and permissions (Gamma Spectroscopy). Univ. Centro Occ. Lizandro Alvarado TXRF – Chemistry Department. Dra. Lué Meru Marco Hospitals & Private Centres Ciclotron (18F), PET, LINAC, Gamma Ch., MRI, CT, etc. Dra. Aisa Manzo

  40. OIEA Universidad Simon Bolivar (www.nuclear.fis.usb.ve) Last Five years New Professionals 29 Ph.D. Physics 2 M.Sc. Physics 2 M.Sc. Chemistry 2 M.Sc. Eng. Electronic 1 B.Sc. Physics: 12 B.Sc. Chemistry 5 B.Sc. Biology 1 Electric & Electronic Eng. 6 Postgraduate abroad 12 Students 8 Ph.D. 5 M.Sc. 6 B.Sc. 5 Researchers 8 Prof. L. Sajo-Bohus Prof. E. Greaves Dr. P. Nemeth Prof. J. Liendo Prof. D. Palacios Prof. H. Barros Prof. M. Bernal Prof. F. Rodríguez Techniques and devices Ion Implanter (0,4 MeV) Neutron Source (Cf) Alpha (Si) & Gamma Spectrometry (HPGe) TXRF & DRX TLD and SSNTD Co & Cs intense sources BGO, NaI(Tl) and Cherenkov Abroad NAA Ion Beam Analysis AMS, ICPMS & TIMS Support Staff 3 2 Tech. + 1 Adm.

  41. Física nuclear y aplicaciones en el Perú El Instituto Peruano de Energía Nuclear (IPEN) cuenta con un reactor de investigación de 10 MW, en el cual se produce radioisótopos para medicina y se realiza análisis químicos por activación neutrónica. Se tiene también una facilidad de neutrografía. El IPEN en colaboración con la Universidad Nacional de Ingeniería se realiza simulación de experimentos de fisión y experimentos de física de reactores. Un grupo de la Pontifica Universidad Católica del Perú trabaja en el experimento ALICE con el grupo de México en el CERN.

  42. Conclusions: Most countries in the region have small activity in basic Nuclear Physics research. Mostly radiation and medical applications. Very small number of scientists (each country <20). Exceptions: Argentina (130), Brazil (400), Mexico(100), including graduate students. Region has no large scale facilities in NP, but intense activity around smaller facilities, large number of students. Small support from funding agencies even for maintenance of existing facilities.

  43. Thank you for your attention

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