The Advanced Implantation Detector Array (AIDA)td/AIDA/Presentations/Page... · 2010-04-01 · AIDA...

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The Advanced Implantation Detector Array (AIDA)

Robert Page

The AIDA Project

Funded by UK EPSRC/STFC (~£2M)

Collaboration between

University of LiverpoolUniversity of LiverpoolUniversity of EdinburghSTFC Daresbury LaboratorySTFC Rutherford Appleton Laboratory

Part of the wider DESPEC collaborationwithin NUSTAR at GSI/FAIR

FAIR context

Super FRS

Advanced Implantation Detector Array (AIDA)DEcay SPECtroscopy (DESPEC)

FRS vs. Super FRS

Predicted Super FRS Yields @ 1012/sA

tom

ic n

umbe

r Z

Neutron number N →

Ato

mic

num

ber

Z

= 3.6 / hour= 0.6 / week

A & Z separation

Isomer γ decays forunique A & Z identification

Experimental concept

ion beamAIDA

3He proportional counters

β decay nAIDA

Moderator block (polyethylene)

3He proportional counters

Side view Front view

Moderator block (polyethylene)

n

Segmented Si detector (DSSD) for ion-β correlations

Predicted Super FRS Yields @ 1012/sA

tom

ic n

umbe

r Z

Neutron number N →

Ato

mic

num

ber

Z

= 3.6 / hour= 0.6 / week

AIDA design – some criteria1. Highly segmented for reliable ion-β correlations at high rates

2. Low energy threshold (50 keV) for high β detection efficiency

3. Large energy range to measure ion energies (20 GeV) too!!

4. Many Si planes to stop all ions (~10 mm thickness)

5. Active area to cover (Super) FRS focal plane or single nuclide

6. Compact to fit inside neutron array, RISING Ge array, …

7. Minimum material – n, γ absorption/scattering

8. Good time resolution for n time of flight, …

9. Measure decays within ~µs of ion implantation!

10. Spectroscopic performance for decays

AIDA Design“standard” configuration “compact” configuration

24 cm x 8 cm 8 cm x 8 cm

Si thickness = 1 mm, strip pitch = 625 µm, >5000 channels

Compatibility with neutron array

BELEN

28 → 44

Compact configurationDSSDs

ASICs +FEE cards

Compatibility with RISING

Compatibility with future Ge array

AIDA ASIC Design

AIDA ASIC Design

AIDA ASIC

AIDA ASIC & readoutMezzanine card:4x 16 channel ASICsCu coverEMI/RFI/light screencooling

FEE card:4x 16-bit ADC MUX readout (not visible)8x octal 50MSPS 14-bit ADCsXilinx Virtex 5 FPGAPowerPC 40x CPU core – Linux - MIDAS

Gbit ethernet, clock,JTAG ports, power

FEE card width: 8cmPrototype – air coolingProduction – recirculating coolant

Packaged AIDA FEE cards

AIDA clock box

Master SYNC to clock box

FEE64

FEE64

FEE64

Clock box

200MHz clock and SYNC distribution

For operating >1 AIDA FEE64

Module may be cascaded

FEE64 (sync master)

Commissioning experiments

TAMU – β-delayed proton emitters– MARS

GSI – α emitters with N~126GSI – α emitters with N~126(219-223U, 218-221Pa, 216-220Th)or 109I & 106Te

– FRS

Status SummaryMechanical assembly of prototype complete

Thermal tests of DSSD cooling ongoing

Bench tests of ASICs, FEE cards ongoingpulsers → electron sourcespulsers → electron sources

Commissioning experiments soon (?)

First experimental proposals to GSI PAC

Further information: http://www.ph.ed.ac.uk/~td/AIDA

CollaboratorsR.D. Page, T. Grahn, University of S. Rinta-Antila, D.A. Seddon Liverpool

T. Davinson, Z.Liu, University ofP.J. Woods EdinburghP.J. Woods Edinburgh

P.J. Coleman-Smith, I.H. Lazarus, STFCS.C. Letts, P. Morrall, V.F.E. Pucknell, DaresburyJ. Simpson, J. Strachan Laboratory

D. Braga, M. Prydderch, S.L. Thomas STFC RAL

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