Fermilab Collabora%on with La%n American Ins%tutes
Transcription
Fermilab Collabora%on with La%n American Ins%tutes
Fermilab Collabora,on with La,n American Ins,tutes Past, Present and Future 1984-‐2014 João dos Anjos -‐ Observatório Nacional X SILAFAE 26 November 2014 Experimental High Energy Physics in LA: Pre-‐history: centered in Cosmic Ray Physics Brazilian exemple: 1934 – Gleb Wataghin and Bernhard Gross arrive in Brazil from Europe. 1940 – Penetra,ng showers in cosmic radiaFon discovered by Wataghin, Damy, and Pompeia 1947 – Meson Pi discovery by Powell, LaLes and Occhialini. (Pic du Midi + Chalcataya data) 1948 – Ar,ficial produc,on of pions by LaLes and Gardner at Berkeley Laboratory. 1949 – FoundaFon of CBPF by LaLes, Leite Lopes and Jayme Tiomno. 1962 – Start of the Brazil-‐Japan Collabora,on in Cosmic Rays at Chalcataya, Bolivia, proposed by Yukawa (5,200 m). 1970’s – Discovery of the exoFc Centauro events by the Brazil-‐Japan collaboraFon. Experimental High Energy Physics in LA: Pre-‐history: centered in Cosmic Ray Physics Argen,na: 1945 – Study of the intensity of cosmic rays at sea level. Variation with latitude due to the earth magnetic field. Kodak plate NTA exposed during 23 days on “El Condor” - Pampa de Achala Córdoba province (2108 m). 1949 – Creation of a group at Universidad de Buenos Aires headed by Estrella Mathov to study cosmic rays. 1950 – Measurements at Aconcagua Plaza de Mulas at 4325 m 1952 – Creation of Laboratorio de Placas Nucleares (CNEA) Mexico: First Steps with Manuel Sandoval Vallarta. 1932– Study of effects of geomagne,c field on cosmic rays. Collabora,on with Geoge Lemaitre. 1934 – Crea,on at UNAM of a group to study Cosmic Rays lead by Sandoval Vallarta. 1954 – Instala,on of Solar Neutron Telescope in Sierra Negra 1958 – New group organized by Ruth Gall at the Ins,tute of Geophysics 80’s: New revival of HEP in La,n America: Par,cle Accelerators: 1982: “1st Panamerican Symposium on Par,cle Physics and Technology” held at Cocoyot in Mexico: Leon Lederman FERMILAB Director invites La,n American physicists to par,cipate in experiments at Fermilab. about 50 a_endees from Europe, North America, and La,n America; these included Lederman, M. Moshinsky, C. Avilez, M. Moreno, A. Zepeda, J. Flores, J. Tiomno, S. Glashow, J. Bjorken, B. Richter and G. Charpak. Clicerio Avilez decided to switch from theore,cal to experimental par,cle physics and to form the UNAM HEP group. Conference outcomes: -‐ four subsequent similar symposia over the next decade -‐ formal Fermilab program to aid La,n American physics (par,cularly par,cle physics); 80’s: New revival of HEP in La,n America: Par,cle Accelerators: 1983: 2nd Pan American Symposium in Rio de Janeiro organized by Jaime Tiomno and Moyses Nussenzweig : new offer and support for 4 physicists. 1984: Brazilian group of 4 physicists join experiment E691 of Charm photoproduc,on at Fermilab. Clicerio Avilez spent a year at Fermilab and joined experiment E766 of Hyperon produc,on at Brookaven and later E690 of strange/ charm produc,on. 1987: 3rd Pan American Symposium held in Rio, hosted by Leite Lopes, CBPF Director: 1989: 4th Pan American Symposium held in Bariloche, Argen,na, organized by Mario Mariscok. 1992: 5th Pan American Symposium held in Cartagena, Colombia, hosted by Eduardo Posada and led to the "Cartagena Manifesto”. 80’s: New revival of HEP in La,n America: Par,cle Accelerators: In 1984, through the collabora,on of NSF and DOE, FERMILAB made available a grant of $300,000 dollars designed to be used to assist Physics in the five na,ons with major physics ac,vity. This was to be spent in journal subscrip,ons, payment of publica,on charges, spare parts and maintenance items for exis,ng equipments and per diem support for urgent short trips by physicists to the US. Later another $150,000 was added to the grant. This made possible to con,nue the research ac,vi,es in spite of the severe foreign currency squeeze in La,n American countries at this ,me . 1987: Herwig Schopper, Director of CERN, and Carlo Rubia, following Lederman inicia,ve, invited La,n American physicists to join CERN experiments. In Brazil groups from CBPF and UFRJ joined the DELPHI experiment at LEP. L.A. Par,cipa,on in Fermilab Experiments: Heavy Flavor, Charm Physics: E691-‐ Charm fotoproduc,on (1984-‐ 1992) Photons with <E> = 145 GeV, beryllium target. E769-‐ Charm hadroproduc,on (1987-‐ 1993) -‐ 250 GeV π, Κ, p on segmented target: Be, Al, Cu, W E791-‐ High Sta,s,cs Charm hadron produc,on (1992-‐2002) E831-‐ FOCUS – High Sta,s,cs Charm Photoproduc,on (1997 – 2004) E781-‐ SELEX – High Sta,s,c Charm baryon produc,on (1997-‐2004) Light Flavor Physics & CP viola,on: E761-‐ Radia,ve Hyperon Decays (1992?-‐1997) E799-‐KTeV-‐ CP viola,on in the Kaon sector (1996 – 1997, E832: 1999 -‐ ) Collider Physics: p-‐pbar collisions at the Tevatron DZERO – p pbar collisions at 1.8 TeV (1993-‐2011) Neutrino Physics: E875-‐ MINOS-‐ Long Baseline Neutrino Oscilla,on Experiment (2005-‐ ) E938-‐ MINERVA-‐ Neutrino cross sec,on (2007-‐ ) Par,cipa,on in Fixed target experiments in 80’s and 90’s E691-‐ Charm fotoproduc,on -‐ Photons with <E> = 145 GeV, beryllium target. ~ 60 scienFsts, 29 publicaFons (1986-‐ 1992) CBPF(3), UNICAMP(1) ~ 10,000 charm events reconstructed. • first successful use of Silicon Micros,p Detectors -‐ SMD (10 pl). • transverse energy trigger (2.5 enrichment). Experiment done at the Tagged Photon Laboratory – TPL Spin off: Parallel Compu,ng, ACP Project • Use of “farms” of parallel computers based upon commercially available processors is largely an invenFon of the Fermilab Advanced Computer Project (ACP). • This technique has become widespread, both for on-‐ and off-‐line compuFng -‐ for selecFng, acquiring, and processing the vast volumes of data. • The ACP computer was developed in the mid 1980’s based on a Motorola 68020 processor. VME crate of ACPs allowed dozens of processors to analyze individual events in parallel. • For example the 50 terabytes of data colleted by experiment E791 was reconstructed in parallel on farms at Fermilab, the University of Mississippi, Kansas State University and the CPBF in Rio de Janeiro. E769 – Charm hadroproduc,on 250 GeV π, Κ, p beam on segmented target: Be, Al, Cu, W Small experiment: 38 scien,sts, 8 ins,tu,ons 8 publica,ons + 4 detector technology papers in refereed journals Data AcquisiFon in Parallel • Fundamental to the success of the experiment – Trigger em ET ≈ 400 MHz • ACP Project: – Lafex/CBPF has parFcipated in the two generaFons of the project: – 1st generaFon (Motorola 68020) • High-‐speed bus – 2nd generaFon (R3000) E791 • Coordenated by CBPF • Acquisi,on so/ware for SMD • ReconstrucFon 4x108 events ⇒ ACP (120 nodes) + 10 SGI (R3000) – First year dedicated to the work – Calibra,on so/ware Cal/SMD E769 -‐ Ph.D's Theses Awarded • Hélio da Mo_a, Filho – CBPF ProducFon of D+-‐mesons in K+ -‐ nucleon collisions at 250 GeV. . FERMILAB-‐THESIS-‐1993-‐02. Nov 1993. 139 pp. • Gilvan Augusto Alves -‐ CBPF A dependence of charmed meson producFon. FERMILAB-‐THESIS-‐1992-‐01. Mar 1992. 138 pp. • Sandra Amato – CBPF ProducFon of D*+-‐meson in 250 GeV hadron-‐nucleon interacFons and observaFon of the decay mode D0 pi+-‐, D0 -‐-‐+> K-‐+pi+-‐pi0. FERMILAB-‐THESIS-‐1992-‐02. May 1992. 147 pp. • João de Mello, Neto – CBPF A study of the hadronic producFon of D0 and anF-‐D0 mesons: x(F) and p(t) distribuFon. FERMILAB-‐THESIS-‐1992-‐03. Apr 1992. 138 pp. • Jussara de Miranda – CBPF CharacterisFcs of the hadronic producFon of the D(*}+-‐ meson. FERMILAB-‐THESIS-‐1992-‐04. Apr 1992. 138 pp. • Alberto Reis – CBPF + Miriam Gandelman (MSci -‐ 1992) Measurament of the producFon cross-‐secFon for the charmed baryon Lambda(c) in 250 GeV/c pion nucleon interacFons. FERMILAB-‐THESIS-‐1992-‐05. Apr 1992. 160 pp. • Marcello Santos Nicola – CBPF ProducFon asymmetry of Lambda0 and anF-‐Lambida0 in pi+-‐, K+-‐, p – nucleon collisions at 250GeV/c. FERMILAB-‐THESIS-‐2001-‐06. Feb 2001. 145 pp. E761-‐ Radia,ve Hyperon Decays ~ 40 scientists, 12 publications Brazilians: USP(3), CBPF(1) E761 Theses: Ivone Alburquerque Ph.D. University of Sao Paulo Jose Roberto Pinheiro Mahon Ph.D. University of Sao Paulo Antonio Morelos Pineda Ph.D. Cinvestav Ricardo .F. Barbosa M.Sci. University of Sao Paulo E761-‐ Radia,ve Hyperon Decays Publica,ons • Measurement of the asymmetry parameter in the hyperon radiative decay S +® pg., M. Foucher et al., Phys. Rev. Lett. 68, 3004 (1992). • First observation of magnetic moment precession of channeled particles in bent crystals., D. Chen, et al., Phys. Rev. Lett. 69, 3286 (1992). • Polarization of S +and anti-S ‾ hyperons hyperons produced by 800-GeV/c protons., A. Morelos, et al., Phys. Rev. Lett. 71, 2172 (1993). • Measurement of the branching ratio for X ‾®S ‾g radiative decay., T. Dubbs, et al., Phys. Rev. Lett. 72, 808 (1994). • Measurement of the magnetic moments of S + and anti-S ‾., A. Morelos, et al., Phys. Rev. Lett. 71, 3417 (1993). • Pt and XF dependence of the polarization of S + hyperons produced by 800 GeV/c protons., A. Morelos, et al., Phys. Rev. D52, 3777 (1995). • New upper limit for the branching ratio of the W ‾® X ‾ g radiative decay., I.F. Albuquerque, et al., Phys. Rev. D50, 18 (1994). • Measurement of the branching ratio and asymmetry parameter for S +® pg radiative decay., S. Timm, et al., Phys. Rev. D51, 4638 (1995). • A Search for light supersymmetric baryons, I.F. Albuquerque, et al., Phys.Rev.Lett.78, 3252 (1997). • Measurement of the anti-S + lifetime and direct comparison with the S + lifetime., R.F. Barbosa, et al., Phys. Rev. D61, 031101 (2000). E791-‐ High Sta,s,cs Charm hadron produc,on -‐ ~ 200,000 charm parFcles ~ 80 scienFsts, 33 publicaFons (1992 – 2002) ; CBPF (11) PhD thesis(4); Master thesis(3) Some contribuFons to E791 • 1990-‐work in the driv chambers and start of data taking. • 1990 -‐ Start of construcFon of the parallel system computers: ACP-‐II. • 1994 – reconstrucFon of 12% of the events in CBPF with the ACP-‐II (2,000 exabytes 2GB tapes). • 1996 -‐ First ArFcle of the collaboraFon, which included our direct parFcipaFon in the analysis: "Search for the flavor changing neutral current decays D + -‐-‐-‐> pi + mu + mu-‐ and D + -‐-‐-‐> pi + e + e-‐”. Aitala et al Phys.Rev.LeL.76 :364-‐367, 1996. " • 1997 -‐ Start of work on analysis of decay D + meson into three bodies. D mesons decay into three bodies: Dalitz plot analysis result results Confirma,on of sigma ππ scalar resonance Results Confirmation of Kappa ππ scalar resonance E791 -‐ Ph.D's Theses Awarded Carla Gobel Burlamaqui – CBPF Study of the non-‐resonant contribuFon in three-‐body hadronic decays of the D meson. FERMILAB-‐THESIS-‐1999-‐11. Jul 1999. 182 pp. Carlos Javier Solano Salinas – CBPF Asymmetry studies in the producFon of anF-‐Lambda0, Xi-‐ / Xi+ and Omega-‐ / Omega+ in 500 GeV/c pi-‐nucleon interacFons. FERMILAB-‐THESIS-‐1998-‐27. Dec 1998. 151 pp. Hendly da Silva Carvalho – CBPF Branching fracFon measurement of the doubly Cabibbo suppressed D+ -‐-‐> K-‐ K+ K+ decay. FERMILAB-‐THESIS-‐1997-‐06. Jul 1997. 152 pp. Aleardo Manacero – Unicamp Performance predicFon of parrallel programs through execuFon graph simulaFon. FERMILAB-‐THESIS-‐1997-‐62. Sep 1997. 152 pp. Andre de Gouvea – CBPF Analysis of Cascade polarizaFon M.Sci Thesis E831/FOCUS Charm photoproduction E831/FOCUS – High Statistics Charm Photoproduction > 1,000,000 charm particles 103 scientists, 36 publications (1997 – 2004) CBPF (9) PhD Theses (2) E831/FOCUS - Ph.D's Theses Awarded E831/FOCUS – High Sta,s,cs Charm Photoproduc,on > 1,000,000 charm parFcles 103 scienFsts, 36 publicaFons (1997 – 2004) CBPF (9); PhD Theses (4) Cesar Manuel Castromonte Flores – CBPF Study of correlaFons between photoproduced pairs of charmed parFcles at Experiment E831/FOCUS. FERMILAB-‐THESIS-‐2008-‐88. Aug 2008. 176 pp. Andre Massafferi Rodrigues – CBPF Mass spectrum anlysis of K-‐ pi+ from the semileptonic decay D+ -‐-‐> K-‐ pi +mu+um. FERMILAB-‐THESIS-‐2004-‐62. Mar 2004. 199 pp. Edgar Casimiro – CINVESTAV, IPN Lambda c+-‐ Lambda c-‐ ProducFon in High Energy Photon-‐Nucleon InteracFons. FERMILAB-‐THESIS-‐1999-‐59. 1999. 200 pp. Cecilia Uribe Estrada – BUAP Charm-‐anFcharm producFon asymmetries for Λc+, Σc++, Σc0, Σc* and Λc+(2625) and their anFparFcles from E831/FOCUS. Collaboration with Mexico (Fermilab) Gerardo Herrera – CINVESTAV (E791) Arturo Fernandez – BUAP (E791) Alberto Sanchez – CINVESTAV (E831/FOCUS) Eleazar Cuautle – CINVESTAV/UNAM (E831/FOCUS) Edgar Casimiro – CINVESTAV (E831/FOCUS) Lambda c+-‐ Lambda c-‐ ProducFon in High Energy Photon-‐Nucleon InteracFons. FERMILAB-‐THESIS-‐1999-‐59. 1999. 200 pp. Cecilia Uribe Estrada – BUAP (E831/FOCUS) Charm-‐anFcharm producFon asymmetries for Λc+, Σc++, Σc0, Σc* and Λc+(2625) and their anFparFcles from E831/FOCUS. Humberto Salazar – BUAP (Auger) Charm Baryon Asymmetries Phys. Lett. B581 (2004) 39–48. Cecilia Uribe Estrada Ph.D. Thesis Charm-‐an,charm produc,on asymmetries for Λc+, Σc++, Σc0, Σc* and Λc+(2625) and their an,par,cles from E831/FOCUS. Asymmetry as functions of pL , pT2 and xF from 10,000 Λc for the first time. AY = NY − NY NY + NY where: NY (NY )=number of baryons (antibaryons). E781/SELEX – High Sta,s,c Charm baryon produc,on 125 scienFsts, 11 publicaFons (1997-‐2004) USP(07), CBPF(01), UFPb(01); total (9) R&D and Construc,on of Vee drix chambers First double charm baryon: cascade_cc ; new exo,c par,cle Ds(2632) Fernanda G. Garcia – USP Hadron producFon of the Lambda(c) charmed baryon by the SELEX-‐E781 experiment. FERMILAB-‐THESIS-‐2000-‐40. Feb 2000. 138 pp. Monique Srivastava – USP Excitados do Sigma_c e Sigma_c* produzidos hadronicamente. FERMILAB-‐THESIS-‐2000-‐46. 2000. 200 pp. E799/KTeV – CP viola,on in the Kaon sector 78 scienFsts, 29 publicaFons (1997 – 2004) UNICAMP(1), USP (3) Sovware development, measurement of ε/ε’ First observa,on of muonic decay of the cascade_zero PhD Student: Ricardo Avelino Gomes -‐ Unicamp An invesFgaFon of the Decay Cascade0-‐> Sigma+mu-‐numu and its ObservaFon. July 2005. MINERVA – Neutrino cross secFons 450 scienFsts, 51 insFtuFons, 11 countries Brazilian Group in Minerva 1 senior physicist 1 pos-‐doc 4 Ph.D students 1 MSci student Theses concluded: 3 Master theses J. Palomino: Hardware and sovware tests for the reconstrucFon of trajectories in MINERvA A. FiorenFni: Real Fme processing in the experiment MINERvA D. MarFnez: Commisioning and Data Analysis for Minerva Test Beam Experiment Main responsabiliFes of the CBPF group: -‐ cross-‐talk tests for the PMT's -‐ Development of tools for data acquisiFon, control and monitoring of the data (control room) -‐ Commisioning, data acquisiFon and analysis of the Test Beam -‐ Study of pi0's resonant producFon in neutrino-‐nucleus interacFons -‐ Study of QE interacFons of charged current for different targets. -‐ Run coordinaFon. -‐ maintenance of part of the electronics of the MINOS near detector. E875/MINOS: Long Baseline Neutrino OscillaFon Experiment 2 detectors, one at Fermilab, other at Soudan Mine, Minnesota UNICAMP, USP (2), UFG(1) Students: 1) João Coelho -‐ UNICAMP (PhD) -‐ electron neutrino appearance 2) Michelle Mesquita de Medeiros -‐ UFG (MSci) -‐ simulaFon of the cosmic ray shadow generated by the moon in the NEAR and in the FAR Detector and reconstrucFon of the ntuples for data and Monte Carlo 3) Stefano Castro Tognini -‐ UFG (MSci): -‐ Monte Carlo simulaFon and effects in the Monte Carlo of atmosphere parametrisaFon for the FAR detector (MULTIPLE MUONS analysis -‐ -‐ remote shiving in IF-‐UFG: RMS (Remote MINOS Shiv StaFon) -‐-‐ -‐ muon monitor -‐ MINOS run Coordinator at Fermilab: Carlos Escobar (2010). D∅ Experiment n HermeFc Detector ¨ n High ResoluFon Calorimetry. ¨ ¨ n Maximum angular cover possible U/LAr calorimeter fine segmentaFon (fina segmentação) Muon DetecFon ¨ ¨ efficiency Low noise Gilvan A. Alves Memorial/ 2007 32 Brazilian ParFcipaFon in Dzero Experiment n 1989 – Projects submiLed to CNPq ¨ Dzero parFcipaFon n Muon system electronics n Micro veFces detector electronics n Heavy Flavors Physics ⇔ muon system Chicago ↓ Booster CDF 1991 – Brazil joins officialy the CollaboraFon Human resources FormaFon ¨ 4 engineers (M.Vaz from CBPF) ¨ 2 Ph.Doc students V.Oguri, J.G. Lima from CBPF ¨ 2 senior reseachers A. Santoro, M. Souza ¨ 1 pos doc. ¨ A. Maciel from CBPF Tevatron n ! p source Main Injector (new) DØ D∅ Results b-‐ tagging: Used in top discovery Forward Proton Detector Upgrade Fermilab Proposal P-‐900 (approved PAC 1997) • • • • • 9 spectrometers composed of 18 Roman Pots detectors must be posiFoned very close (~ 6 mm) to beam for tracking the protons and anF-‐protons scaLered Trajectory reconstructed ⇒ momentum and scaLering angle Physical region accessible (0 < t < 4.5 GeV2) unexplored in the energy range of the Tevatron Allows combinaFon of low and high pT (RP + Central Dzero detector) Roman Pots D 2 D 1 D A A 22 S p p Q 4 Q 3 Q 2 Q 2 Q 3 Q 4 A 1 59 57 33 23 ● X X’ Trigger V V’ 36 P 2 33 z (m) Built at LNLS Original drawing ⇔ to minimize space in the beam line ● 10-11 Torr vaccum ● High precision ~ 4µm RMS ● Installed at Fermilab 12/2000 ● Fully operating 17.39 mm 17.39 mm U U’ S 0 23 ● beam P 1 Roman Pots Shielding MAPMT Hamamatsu H6568 Gilvan A. Alves 37 Results n 2 Ph.D theses ¨ ¨ n 6 theses to be made ¨ ¨ ¨ ¨ ¨ ¨ n ¨ ¨ ¨ Block et al, PRD41 (1990) 978 LISHEP98 8th AdriaFc MeeFng Fermilab winter workshop ENFPC APS meeFng Fermilab result of the week ¨ n M.Rangel (CBPF) A.C. Assis (UERJ) R. Rodrigues (UERJ) H. Malbouisson (UERJ) R. Otec (CTU-‐Prague) V. Hynek(Charles U.-‐Prague) Many apresentaFons ¨ ¨ n J.Molina (CBPF) σelp p M.Strang (UTA) hPp://www.fnal.gov/pub/today/archive_2004/today04-‐03-‐18.html Colaboração CBPF-‐Saclay ¨ Boonekamp, Peschanski & Royon Diffrac,ve chi_c Produc,on at the Tevatron and the LHC hep-‐ph/0612297 38 Gilvan A. Alves n DZERO RUN I: Ph.D's Theses Awarded FERMILAB Tevatron run I: José Guilherme Rocha de Lima -‐ CBPF Study on the Inclusive ProducFon Cross SecFon of Forward Muons in ppbar Collisions at sqrt(s) = 1.8 TeV. 5/1/1995 Vitor Oguri -‐ CBPF Inclusive BoLom ProducFon in ppbar Collisions at sqrt(s) = 1.8 TeV at D0 Central Detector Ragion. 8/25/1995 Wagner de Paula Carvalho – CBPF Study of b-‐quark producFon in ppbar collisions at sqrt(s)=630GeV in the D0 experiment. 3/31/1998. Andre Sznajder – CBPF Analysis of b-‐Quark ProducFon in the D0 experiment. 2/11/1998. DZERO RUN II: Ph.D's Theses Awarded FERMILAB Tevatron run II Jorge Andrés Molina Insfran – CBPF Study of Elastic Scattering at sqrt(s)=1.96 TeV with the Forward Proton Detector. November, 2003. Ana Carolina dos Santos Assis Jesus – UERJ Diffractive Jpsi Production in the Dzero Experiment. July, 2007. Helena Brandão Malbouisson – UERJ Antiproton structure function in p-pbar diffractive interactions at sqrt(s) 1.96 TeV. July, 2007 Renata Figueiredo Rodrigues – UERJ Measurement of the event fraction of inclusive double pomeron exchange in central dijet production. December, 2007 . Murilo Santana Rangel – CBPF Exclusive Dijet Production in Double Pomeron Events in the Dzero Experiment. October, 2008. Experimental High Energy Physics in Brazil: Summary: Research groups concentrated in Rio de Janeiro and São Paulo (11 ins,tu,ons) CBPF, UFRJ, UERJ, PUC, UFF USP, UNESP, UNICAMP, INPE Small groups at UFBa and UFPb Qualita,ve change in the par,cipa,on of Brazilian groups over the years: -‐ 80’s : mostly man power for moun,ng the experiments and data analysis -‐ late 90’s: growing leadership in detector projects and front-‐end electronics. Presently a lot of ac,vity in 12 different experiments: 17 research groups listed in CNPq Directory: 69 researchers and 45 students (39 theses at Fermilab) ~ 150 scien,sts Main Problem: Long Term Financing: Although projects are approved in scien,fic merit, Government did not sign un,l now most Memorandum of Understanding Long term financing is not assured. Collabora,on between Mexico and Fermilab: In Par,cle Theory: 1981: Pos-‐docs Rodrigo Huerta and Jose Luis Lucio. Researchers: Augusto Garcia, Arnulfo Zepeda, Ma,as Moreno and Miguel Angel Perez: Several visits in the 1980s. In Experimental Physics: PhD students from CINVESTAV: Hector Mendez, Antonio Morelos and Gerardo Moreno Par,cipa,on in Fixed target Experiments in the 90s: E690-‐ Guanajuato group E781 SELEX and later CKM -‐ San Luis Potosi: J. Engelfried, A. Morelos E791 CINVESTAV & Puebla BUAP: G. Herrera, A. Fernandez E831 FOCUS -‐ CINVESTAV & Puebla BUAP: E. Cuautle, A.Sanchez, C. Uribe, M.A. Reyes E871 HyperCP – I. F. Guanajuato: J.Felix, G. Moreno Par,cipa,on in Collider Physics Experiments: D0 CINVESTAV – Heriberto Cas,lla’s group: R. Lopes, A. Sanchez, E. Cruz Neutrino Physics: MiniBooNe – Short Baseline Neutrino Oscilla,ons – A. Aguilar, UNAM E938-‐ MINERVA-‐ Neutrino cross sec,on (2007-‐ ) – J. Felix, Guanajuato Collabora,on between Argen,na and Fermilab: Contribu,on to the Auger experiment: 1991-‐ 1992: Alberto Etchegoyen was at Fermilab as Guest Scien,st in the collider experiment CDF and par,cipated of the ini,al discussions of the Auger project. Back in Argen,na he has made an extensive search for a good site. The decision on the site was taken in 1996 and Malargue in the Pampas was choosen. Also the development of the plas,c scin,llator for the AMIGA array was done in collabora,on with Fermilab. Par,cipa,on in the collider experiment D0: Experimental group led by Ricardo Piegaia: 9 PhD students from UBA in the period 1993 – 2008: Cecilia Gerber, Daniel Elvira, Sebas,an Grinstein, Veronica Sorin, Hernan Wahlberg, Alejandro Szynkman, Miguel Mostafa, Ariel Schwartzman and Andres Tanasijczuk. Other Argen,nian students in D0: Juan, Florencia y Gustavo Otero Pos-‐Docs: Cecilia Gerber, Daniel Elvira, Gustavo Otero, Javier Tiffenberg, and Yann Guardincerri. Collabora,on between Colombia and Fermilab: Started in 1988 in Experiment E710 High Energy Physics Group Universidad de los Andes researchers: Juan Pablo Negret and Bernardo Gomez, student Carlos Avila 1989: students Juan Carlos Sanabria and Luis Montes 1991 to present: Group joined the collider experiment D0 UNIANDES ac,ve members: J.P.Negret, B. Gomez, C.Avila. Univ. San Francisco de Quito: Bruce Hoeneisen 5 Uniandes engineers at the LPC at Fermilab Ac,vi,es in D0: -‐ hardware: the Uniandes electronics engineers contributed to the design and commissioning of the electronics for the D0 Silicon Vertex Detector. -‐ also contributed to the D0 Muon Group (hardware and soxware) -‐ data analysis in B-‐Physics and to the D0 Forward Proton Detector, project leaded from Uniandes Professor Carlos Avila. 2005: UNIANDES group joined CERN CMS Collabora,on: Carlos Avila, group leader + Bernardo Gomez and Juan Carlos Sanabria. Posdoc: Andres Florez + 3 engineers Two Uniandes students completed PhD with CMS. Four other students from Uniandes are ac,ve in their PhD thesis. Collabora,on between Peru and Fermilab: Started officialy in 2005-‐2006 in the experiment E938 MINERVA: Neutrino cross sec,on (2007) Ins,tu,ons involved: UNI (Universidad Nacional de Ingeniería) Group Leader: Javier Solano 3 Master students graduated: Kenyi Hurtado Adolfo Chamorro Marcos Alania PUCP (Pon,fica Universidad Católica del Perú). Group Leader: Alberto Gago 3 Master students graduated: José Bazo Leonidas Aliaga Carmen Araujo Other Collabora,ons with Fermilab (Non Accelerator Physics) • Theory Group Hiroshi Nunokawa, Renata Zukanovich Funchal, Gustavo Burdman, Rogério Rosenfeld • Astronomy Group: Angela Olinto, Marcelo Gleiser • Sloan Digital Survey • MarFn Makler • Dark Energy Survey • MarFn Makler Dark Energy Survey • The Dark Energy Survey (DES) is designed to probe the origin of the acceleraFng universe and help uncover the nature of dark energy by measuring the 14-‐billion-‐year history of cosmic expansion with high precision. • More than 120 scienFsts from 23 insFtuFons in the United States, Brazil, Spain, Germany and the United Kingdom are working on the project. • This collaboraFon is building an extremely sensiFve 570-‐Megapixel digital camera, DECam, and will mount it on the Blanco 4-‐meter telescope at Cerro Tololo Inter-‐American Observatory high in the Chilean Andes. • StarFng in late 2011 and conFnuing for five years, DES will survey a large swath of the southern sky out to vast distances in order to provide new clues to this most fundamental of quesFons. Dark Energy Survey • ScienFfic Program: • • • • • Galaxy Cluster Weak Lensin Supernova Baryon AcousFc OscillaFon Large-‐Scale Structures Dark Energy Survey • DES-‐Brazil ConsorFum: 30 researchers from • ON -‐ Observatorio Nacional • CBPF -‐ Centro Brasileiro de Pesquisas Fisicas • UFRGS -‐ Universidade Federal do Rio Grande do Sul CONNIE – Neutrino coherent scaLering on nucleus Fermilab Experiment at the nuclear reactor Angra-‐II in Brazil (2014) CONNIE CollaboraFon: Fermilab (USA), CBPF and UFRJ (Brazil) Univ. of Zurich (Switzerland), Univ. Nacional del Sur (ArgenFna), Univ. Autonoma de Mexico UNAM,(Mexico) , Univ. Nac. de Assunción Paraguay. LBNF – LONG BASELINE NEUTRINO FACILITY Summary: Evolu,on of Research Ac,vi,es: Hardware Projects: 1st stage: IntegraFon in other groups with more experience and parFcipaFon in the construcFon of detectors, electronics and development of sovware 2nd stage: Responsibility for the construcFon and maintenance of detector systems: • Drix Chambers for SELEX (1993-‐1996) -‐ Embraer industry US$ 150,000 • PWC (Propor,onal wire Chambers) for E831/FOCUS (1996) US$ 40,000 • Roman Pots for DZERO (1998-‐2001) -‐ LNLS Laboratory US$ 400,000 • Surface detectors for AUGER Observatory -‐ Alpina industry US$ 1,000,000 • Ba_eries for Auger to backup solar pannels – Moura industry US$ 300,000 Event reconstruc,on: parFcipaFon in sovware development Data Analysis: 1st stage: integraFon in other groups doing data analysis 2nd stage: responsibility for analysis and papers Example: E791/cbpf group: 7 papers out of 34 ( more than 20%) Conclusions: -‐ In the last 30 years Fermilab has played a very important role in the development of High Energy Physics in La,n America. -‐ Lederman ini,a,ve and support made possible the crea,on of experimental high energy physics groups in Mexico, Argen,na, Brazil, Peru and Colombia developing a strong La,n American community of about 1,000 researchers, technicians and graduate students. -‐ This has allowed the condi,ons for a good La,n American par,cipa,on in the CERN LHC program. -‐ The construc,on of Neutrino Facili,es at Fermilab will increase again the La,n American par,cipa,on at the lab. Thank you!