UL UNIVERSIDADE DE LISBOA CENTRO DE FÍSICA NUCLEAR Nupecc Workshpo on Small-Scale Accelerator Faccilities, Crete 7-8 September 2007 People: Senior Researchers.

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Presentation transcript:

UL UNIVERSIDADE DE LISBOA CENTRO DE FÍSICA NUCLEAR Nupecc Workshpo on Small-Scale Accelerator Faccilities, Crete 7-8 September 2007 People: Senior Researchers (responsible for activity lines): Eduardo Alves (Head of Lab) Adelaide Pedro de Jesus Luís Cerqueira Alves Miguel Reis Nuno Barradas Rui Coelho da Silva Teresa Pinheiro Ulrich Wahl ITN/CFNUL Ion Beam Laboratory itn.pt/

UL UNIVERSIDADE DE LISBOA CENTRO DE FÍSICA NUCLEAR Nupecc Workshpo on Small-Scale Accelerator Faccilities, Crete 7-8 September 2007 ITN/CFNUL Ion Beam Laboratory Van de Graaff 2.5 MV DanFisik Implanter 210 kV General Ionex Cockroft-Walton tandetron 3 MV

UL UNIVERSIDADE DE LISBOA CENTRO DE FÍSICA NUCLEAR Nupecc Workshpo on Small-Scale Accelerator Faccilities, Crete 7-8 September 2007 Van de Graaff 2.5 MV, 10 A (protons); H, He ions Lines: PIXE/Nuclear Reactions RBS, Chan, ERDA - probe PIXE analysis of environmental, biomedical, material science, geological, art,….. samples Nuclear Reactions for astrophysics Development of a PIGE methodology Advanced Materials: Wide bandgap semiconductors and oxides Nuclear fusion reactor materials and mineralogical samples. Multiple quantum wells and quantum dots. Materials Science Biomedicine Environment Archaeometry and Art Mineralogy

UL UNIVERSIDADE DE LISBOA CENTRO DE FÍSICA NUCLEAR Nupecc Workshpo on Small-Scale Accelerator Faccilities, Crete 7-8 September 2007 ~100 pA for PIXE and RBS (Res. ~ 3 4 µm 2 ) Spatial Resolution ~1 fA transmission work (Res. 1 1 µm 2 ) Oxford Microbeams triplet system with OMDAQ and DAN32 software STIM – Scanning Transmission Ion Microscopy CSTIM – Channeled STIM IBIC – Ion Beam Induced Charge IBIL – Ion Beam Induced Luminescence

UL UNIVERSIDADE DE LISBOA Nupecc Workshpo on Small-Scale Accelerator Faccilities, Crete 7-8 September 2007 Advanced Materials for Nuclear Fusion Reactors 6 Li(n, ) 3 H Li ceramic breeders ITER International Thermonuclear Experimental Reactor Structure Stainless steels SiC composites Be as neutron multiplier 9 Be(n,2n)2 Impurities - generation of long-lived isotopes Chemical reactions Objectives CENTRO DE FÍSICA NUCLEAR

UL UNIVERSIDADE DE LISBOA Nupecc Workshpo on Small-Scale Accelerator Faccilities, Crete 7-8 September 2007 Advanced Materials for Nuclear Fusion Reactors CENTRO DE FÍSICA NUCLEAR Titanium Beryllides Objectives: Structural characterisation. Oxidation after annealing in air at 800º C. 530 µm Ti Fe

UL UNIVERSIDADE DE LISBOA CENTRO DE FÍSICA NUCLEAR Nupecc Workshpo on Small-Scale Accelerator Faccilities, Crete 7-8 September 2007 SbGaIn Max. Min µm Crystal quality Manufacturing Control ThermoPhotoVoltaic cell

UL UNIVERSIDADE DE LISBOA CENTRO DE FÍSICA NUCLEAR Nupecc Workshpo on Small-Scale Accelerator Faccilities, Crete 7-8 September 2007 FeCu PbZn Ancient stained glass Glass and paint composition Corrosion studies Cross section analysis

UL UNIVERSIDADE DE LISBOA CENTRO DE FÍSICA NUCLEAR Nupecc Workshpo on Small-Scale Accelerator Faccilities, Crete 7-8 September 2007 External Microbeam end- station mm mm 1 - exit nozzle nm thick Si 3 N 4 membrane 2 - X-ray detector 3 - RBS detector 4 - microscope 5 - vacuum chamber 490 µm 500 µm 100 µm Horizontal Gaussian FWHM = 70 µm Vertical Gaussian FWHM = 75 µm Going on Developments

UL UNIVERSIDADE DE LISBOA CENTRO DE FÍSICA NUCLEAR Nupecc Workshpo on Small-Scale Accelerator Faccilities, Crete 7-8 September 2007 General Ionex Cockroft-Walton tandetron 3MV NEC Alphatros ion source for He beams Negative ion direct-extraction Duoplasmatron ion source for H- beams. HICONEX Cs beam multielement negative ion source

UL UNIVERSIDADE DE LISBOA CENTRO DE FÍSICA NUCLEAR Nupecc Workshpo on Small-Scale Accelerator Faccilities, Crete 7-8 September eV resolution (Transition Edge Superconductor -TES) detector Tandem new lines of activity Molecular speciation from PIXE spectra Heavy Ion Elastic Recoil Detection analyses (HIERDA) – A ToF system is under construction to profile light ions using either Cl or I beams.

UL UNIVERSIDADE DE LISBOA CENTRO DE FÍSICA NUCLEAR Nupecc Workshpo on Small-Scale Accelerator Faccilities, Crete 7-8 September 2007 Tandem new lines of activity

UL UNIVERSIDADE DE LISBOA CENTRO DE FÍSICA NUCLEAR Nupecc Workshpo on Small-Scale Accelerator Faccilities, Crete 7-8 September 2007 Tandem new lines of activity HICONEX Cs microbeam ( m) multielement ("AUSTRALIS") negative ion source C Conventional HICONEX Cs beam multielement negative ion source Two beamlines for AMS: A) for 14 C dating: 2 off-center Faraday cups for parallel current measurement of 12 C3+ and 13 C3+, while the 14 C3+ detection is by means of an electrostatic analyzer and a gas proportional counter. B) Heavy ion ("AUSTRALIS") beamline: The magnet is able of analyzing 6+ (or higher charge state) ions of all elements up to U at 2.5 MV terminal voltage. Sequential analysis of different isotopes (around +-3% of center mass) in the magnet is possible by means of the "fast bouncing" technique, i.e. by means of electrostatic deflectors which can be switched at >10 ms time intervals

UL UNIVERSIDADE DE LISBOA CENTRO DE FÍSICA NUCLEAR Nupecc Workshpo on Small-Scale Accelerator Faccilities, Crete 7-8 September 2007 Tandem new lines of activity Astrophysics Programme Feasibility Study of AMS for the reaction: 51 V( 3 He, n) 53 Mn Carbon burning processes (collab with Claus Rolfs) Particle Gamma Reaction product (AMS) Detection High current ion source Reaction beam line Each case is a new case