Summary: Physics Opportunities for ISOLDE and n_TOF Peter Butler.

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Presentation transcript:

Summary: Physics Opportunities for ISOLDE and n_TOF Peter Butler

n_TOF

s-process and stellar cross-section rates neutron-neutron interaction  a,  f, of actinides, fission, structure, of ADS/EA n_TOF current goals 77 participants in 5 active experiments

Experimental tools Total Absorption Calorimeter Fission detector Target station external contributions ~5 MCHF

EU programmes Existing VIth framework (-2010) NUDATRA (EUROTRANS) and EFNUDAT (TNA) new proposal ANDES (2010-) Complementarity (Europe) (i) GELINA (Geel) – electron linac (ii) NFS (GANIL) – cold fission Competition (North America & Japan) LANSCE (Los Alamos) spallation source ORELA (Oak Ridge) electron linac JPARC – spallation source n_TOF has better brightness and energy resolution Strategy for n_TOF

The second n_TOF beam line (proposed by NuPAC Oct 2005) EAR-1 class A laboratory EAR-2 < 1 mg targets T 1/2 of targets years SPL+PS2

ISOLDE Energy range eV (10 mK) to 3 MeV/u Intensity 1 – ions/s Isotope range 6 He to 232 Ra (Z 2-88 N 4-144)

Light exotic nuclei ab-initio from nucleon-nucleon forces shell evolution ………………………….. shell model interaction nuclear shapes at low spin density-functional theories r-process and rp-process……………… nucleosynthesis and stellar energy generation V ud, e- correlations, etc. tests of SM 580 participants in 73 active experiments ISOLDE current nuclear physics goals

solid state physics biophysics radio-pharmacology Diversity of ISOLDE current science programme

Many different experimental tools external contributions ~ 30MCHF REX- ISOLDE MINIBALL WITCH ISOLTRAP ISCOOL COLLAPS

shell evolution from s.p. states (7,14, 20, 33, 53, 65, 75) nuclear shapes at extremes (6, 18, 31, 52, 62, 65, 74, 83, 89, 96) nucleosynthesis (spectroscopy, reactions) (53, 85, 93) tests of SM from EDM measurements, neutrino properties, V ud (45, 52, 59, 66, 67, 69) solid state physics, biophysics, radiopharmacy (44, 63, 64, 86, 88, 90, 93, 94, 95) Future physics with HIE-ISOLDE higher energy higher energy, higher intensity variable energy, higher intensity higher intensity variable energy, higher intensity Better beam quality32 out of 95 abstracts

~ 2000 researchers in low-energy NP require both in- flight and ISOL facilities (NuPECC LRP) Complementarity (Europe) (i) SPIRAL-2 – range of radionuclides (ii) FAIR – in-flight facility Competition (North America & Japan) HIE-ISOLDE + SPIRAL2 well placed to compete: ISAC-2 (TRIUMF) and FRIB (MSU) – timeline for technological development RIBF(RIKEN) – in-flight facility Strategy for ISOLDE and European NP

proposed EUROPEAN ISOL ROADMAP

HIE-ISOLDE project (proposed by NuPAC Oct 2005, presented to RB June 2006, 2 yellow reports) HIE-ISOLDE 1 –Energy upgrade to 10 MeV/u with a SC linac –Design study of the intensity upgrade R&D activity, part of LINAC funded from Belgium (4.3 MCHF) Beam lines partially funded by collaboration (1.2 MCHF) Request from UK STFC for part of LINAC (6 MCHF) Other bids (5 MCHF) Request from CERN (~12 MCHF up to 2013) –Other beam quality investments (new RILIS, RFQ cooler, charge breeding) – funded from Sweden, UK, D, … (4 MCHF) HIE-ISOLDE 2 (EURISOL pre-cursor) –Intensity upgrade for LINAC4 (10 kW), L-SPL (30 kW): targets, high resolution separator and charge breeder To be requested (up to 2018)

SUMMARY Both n_TOF and ISOLDE are unique and world-leading facilities (e.g. ISOLDE publishes 8 letters/year) Planned upgrades n_TOF - EAR-2 (new experimental area) HIE-ISOLDE (higher energy & intensity)

EUROPEAN ISOL ~ 65 elements > 700 nuclides HIE-ISOLDE fission fragmention spallation particles /s SPIRAL-2 intense fission

European Roadmap for RIB facilities 100 kW direct target 100 MeV/u fission

driver accelerator In-Flight Isotope Separator On Line (ISOL) thin target fragment separator storage ring ss 50 MeV/u to 1 GeV/u experiments detectors spectrometers... high-temperature thick target ion source mass separator post accelerator ~ ms to s meV 100 MeV/u heavy ions -fusion -fragmentation -fission light & heavy ions, neutrons, electrons -spallation -fission -fragmentation Radioactive Ion Beams: In-Flight versus ISOL

PhysicsHIE-ISOLDENuSTAR Variable 1.2 – 10 MeV/u beams of good definition Detailed spectroscopy nearer stability 200 MeV/u- 1 GeV/u beams of any chemistry Can reach further from stability Shell evolutionParticle, hole studiesHole studies for lighter nuclei Exotic collectivitySign of deformation Multiple excitation Single step excitation of highly excited states Nucleosynthesis, energy generation Direct and surrogate s.p. structure Coulomb dissociation, masses, etc. np-pairing, nn correlations d transfer to T=0, T=1 2n transfer Correlations from knock-out reactions Isospin mixingPrecise B(E2) valuesEnergy levels Halo nucleiStudy of resonances E1 response by (p,p’) Mass radii Momentum distributions High spin structure at extreme T z High spin states in p-rich nuclei Isomers in n-rich nuclei Qu.6

Research with Radioactive Ion Beams

18 May 2009 New opportunities in the physics landscape at CERN 22 ISOLDE users community 2004 – approved experiments 579 scientists 134 institutes 34 countries 236 publications in refereed journals of which 42 in “Letters” more than 20 PhD’s Number of scientists per country