1. The HypHI project at GSI Hypernuclear spectroscopy with heavy ion beams
Take R. Saito, for the HypHI collaboration
GSI-Darmstadt
Helmholtz Center for Heavy Ion Reserach
and
Johannes Gutenberg-Universität Mainz

2. How much can we extend this landscape?
L-hypernuclear chart
Around the b-stability line
(p+,K+), (K-,p-), (e,e’K+)
BNL, KEK, J-PARC, CEBAF, FINUDA, MAMI C
Neutron rich hypernuclei
(K-,p+)
J-PARC, FINUDA
Toward hypernuclei at necleon drip-lines: Hypernuclei at extreme isospins
Heavy ion collision
JINR, HypHI
The HypHI project, T.R. Saito, HYP2006 Mainz

3. Heavy Ion Beams: Powerful Tools for Hypernuclear Spectroscopy
Relativistic hypernuclei: projectile fragment → hypernuclei
The HypHI project, T.R. Saito, HYP2006 Mainz

4. How much can we extend this landscape?
L-hypernuclear chart
Around the b-stability line
(p+,K+), (K-,p-), (e,e’K+)
BNL, KEK, J-PARC, CEBAF, FINUDA, MAMI C
Neutron rich hypernuclei
(K-,p+)
J-PARC, FINUDA
Toward hypernuclei at necleon drip-lines: Hypernuclei at extreme isospins
Heavy ion collision
JINR, HypHI
The HypHI project, T.R. Saito, HYP2006 Mainz

5. Hypernuclear magnetic moments
With meson and electron beam induced hypernuclear production
Very small recoil momentum of produced hypernuclei
Almost impossible to perform direct measurements of hypernuclear magnetic moments
B(M1) measurements with g-ray spectroscopy
Hyperball-J at J-PARC
Contributions from nuclear collective motion have to be subtracted
With heavy ion collisions
Hypernuclei at projectile rapidity → relativistic hypernuclei
Hypernuclei can be separated by a magnetic spectrometer
Precession of hypernuclear spin alignment in magnetic field
Perturbed p- asymmetry → magnetic moments
Can be performed only at FAIR in near future
The HypHI project, T.R. Saito, HYP2006 Mainz

6. The HypHI project, T.R. Saito, HYP2006 Mainz
Hypernuclear spectroscopy with heavy ion beams at GSI/FAIR
LOI: submitted to the GSI PAC in March 2005
Approved by Helmholtz Association as Helmholtz-University Young Investigators group at GSI with Mainz University
A proposal of the Phase 0 experiment
Submitted to the GSI PAC
To be discussed on October 23rd
Giessen University, Germany
GSI (DVEE, KP2, KP3), Germany
JINR, Dubna, Russia
Johannes Gutenberg University Mainz, Germany
KEK, Japan
Moscow State University, Russia
Nara Women’s University, Japan
Niels Bohr Institute, Denmark
Osaka Electro-Communication University, Japan
Osaka University, Japan
Peking University, China
RIKEN, Japan
Soltan Institute for Nuclear Studies, Poland
Tokyo University, Japan
Tokyo University of Science, Japan
Tohoku University, Japan
TRIUMF, Canada
Still expanding ……
Spokesperson : Take R. Saito, GSI
The HypHI project, T.R. Saito, HYP2006 Mainz

7. Hypernuclei with Heavy Ion Beams: The HypHI project
Heavy ion induced reaction at relativistic energies (heavy-ion collision)
NN -> LKN : Energy threshold ~ 1.6 GeV
Heavy ion beams with E > 1.6 GeV/u needed
Stable heavy ion beam at GSI
Stable heavy ion beam at FAIR
RI-beam from FRS and super-FRS
Large Lorentz factor g (>3)
Effective lifetime : Longer by the Lorentz factor
200 ps -> 600 ps with g=3
200 ps -> 4 ns with g=20
Only a few light hypernuclei so far identified with heavy ion beams at Dubna (3LH and 4LH, ~ 0.2 mb, with 4He and 7Li beams) L
The HypHI project, T.R. Saito, HYP2006 Mainz

8. Heavy Ion Beams: Powerful Tools for Hypernuclear Spectroscopy
E > 1.7 A GeV
I > 105/s
FRS
Super-FRS
The HypHI project, T.R. Saito, HYP2006 Mainz

9. Hypernuclei with Heavy Ion Beams: The HypHI project
Heavy ion induced reaction at relativistic energies (heavy-ion collision)
NN -> LKN : Energy threshold ~ 1.6 GeV
Heavy ion beams with E > 1.6 GeV/u needed
Stable heavy ion beam at GSI
Stable heavy ion beam at FAIR
RI-beam from FRS and super-FRS
Large Lorentz factor g (>3)
Effective lifetime : Longer by the Lorentz factor
200 ps -> 600 ps with g=3
200 ps -> 4 ns with g=20
Only a few light hypernuclei so far identified with heavy ion beams at Dubna (3LH and 4LH, ~ 0.2 mb, with 4He and 7Li beams) L
The HypHI project, T.R. Saito, HYP2006 Mainz

10. HypHI at GSI/FAIR: Concept of Experiments
Produced hypernucleus at the similar velocity of projectiles
Large Lorents factor g > 3
200ps -> 600ps (g=3), hypernuclear decay in flight
Example : 12C + 12C -> ALZ + K+,0 + X
Mesonic weak decay
L -> p- + p
Non-mesonic weak-decay
Lp -> np
Magnet
target n
L-Hypernucleus K
Residues
Scintillators + diamond
Trackers
N-detector
K+ counter
p, p
The HypHI project, T.R. Saito, HYP2006 Mainz

11. Goals of the HypHI project
Hypernuclear magnetic moments
Quark bulding blockes
Quark Pauli blocking effect
L/S coupling as functions of isospins
Kaon currents in the nuclear matter
Hypernuclei at extreme isospins
Cold neutron matter
L/S coupling
The HypHI project, T.R. Saito, HYP2006 Mainz

12. Accelerator facility at GSI
The HypHI project, T.R. Saito, HYP2006 Mainz

13. Accelerator facility at GSI
FRS
The HypHI project, T.R. Saito, HYP2006 Mainz

14. The HypHI project, T.R. Saito, HYP2006 Mainz
Phase 0 of HypHI
The goal of the Phase 0 experiments
To confirm Dubna’s hypernuclear production at 2 A GeV with 6Li primary beams : Mesonic decay L -> p- + p
3LH -> p- + 3He
4LH -> p- + 4He
5LHe -> p- + 4He + p
The HypHI project, T.R. Saito, HYP2006 Mainz

15. The HypHI project, T.R. Saito, HYP2006 Mainz
ALADiN magnet
The HypHI project, T.R. Saito, HYP2006 Mainz

16. The HypHI project, T.R. Saito, HYP2006 Mainz
TOF detectors
TOF-start (new development)
Polycrystalline diamond detector
High rate: 108 /s
Excellent time resolution: < 15 ps
ALADiN TOF wall (existing)
Plastic scintillator bars
For negative charged particles (mainly p-)
Horizontal(x)-vertical(y) tracking
TOF+ (new development)
For positive charged particles
xy tracking
GSI
The HypHI project, T.R. Saito, HYP2006 Mainz

17. Scintillating fiber arrays
TR0
x and y planes
Energy and time readout
TR1 and TR2
x, y and d planes
Time readout
Used for tracking triggers
Osaka Electro-communication University, Osaka Univ., Mainz Univ., GSI
The HypHI project, T.R. Saito, HYP2006 Mainz

18. The HypHI project, T.R. Saito, HYP2006 Mainz
Trigger design
target
Tracking trigger (K+ and K0 channel)
Two types of vertices
One vertex in the target
Meson production
Fragmentation
Vertex out of the target
Hypernuclear decay
Free-L decay
FPGA/DSP based trigger module
Efficiency to 4LH events : ~ 14 %
GSI, Mainz Univ.
TR1
→ HypHI poster, S. Minami et al
The HypHI project, T.R. Saito, HYP2006 Mainz

19. p- trigger (hypernuclear decay)
p- from the target
Low momentum
Hitting to the side yoke of the ALADiN magnet
p- from hypernuclei and free-L at projectile rapidity region
Lorentz boosted at g~3
Larger momentum
Observed by the ALADiN TOF
Efficiency
28 % for 4LH events
→ HypHI poster, S. Minami et al
The HypHI project, T.R. Saito, HYP2006 Mainz

20. The HypHI project, T.R. Saito, HYP2006 Mainz
Z=2 trigger by TOF+
Z=2 particles from the hypernuclear decay
3LH -> 3He + p-
4LH -> 4He + p-
5LHe -> 4He + p + p-
By TOF+
Efficiency
95 % for 4LH events
→ HypHI poster, S. Minami et al
The HypHI project, T.R. Saito, HYP2006 Mainz

21. The HypHI project, T.R. Saito, HYP2006 Mainz
Estimates
4LH
Beam: 6Li, 107 /s, 2 A GeV
Target: 12C, 8 g/cm2
Trigger efficiency with tracking + p- + Z=2: 7 %
Trigger rate: ~ 340 Hz
Additional detectors considered
K+ detector: Osaka Univ.
Drift chambers: GSI, KEK
Proposal: submitted to the GSI PAC
Experiment: beginning of 2008
What to be measured:
Cross section
Lifetime
Polarization
Forward correlation between L and other charged particles
→ HypHI poster,
S. Minami et al
The HypHI project, T.R. Saito, HYP2006 Mainz

22. HypHI Project at GSI/FAIR
2004
HypHI project started
LOI and progress report to the GSI PAC, Design study
Design study, preparation for the phase 0 experiment
Phase 0: experiment with 3LH, 4LH and 5LHe
Design study for the setup for hypenuclear non-mesonic weak decay measurements
Phase 1: Experiments for proton-rich hypernuclei
Phase 2: Experiment for neutron- rich hypernuclei at R3B/NuSTAR/FAIR
Phase 3: Hypernuclear separator
Hypernuclear magnetic moments
Hypernuclear drip-lines
2005
2006
2007
2008
2009
2010
~2011
The HypHI project, T.R. Saito, HYP2006 Mainz

23. HypHI Project at GSI/FAIR
Phase 0
2004
HypHI project started
LOI and progress report to the GSI PAC, Design study
Design study, preparation for the phase 0 experiment
Phase 0: experiment with 3LH, 4LH and 5LHe
Design study for the setup for hypenuclear non-mesonic weak decay measurements
Phase 1: Experiments for proton-rich hypernuclei
Phase 2: Experiment for neutron- rich hypernuclei at R3B/NuSTAR/FAIR
Phase 3: Hypernuclear separator
Hypernuclear magnetic moments
Hypernuclear drip-lines
2005
> 103 /week
> 104 /week
2006
2007
2008
2009
2010
~2011
The HypHI project, T.R. Saito, HYP2006 Mainz

24. HypHI Project at GSI/FAIR
Phase 0
2004
HypHI project started
LOI and progress report to the GSI PAC, Design study
Design study, preparation for the phase 0 experiment
Phase 0: experiment with 3LH, 4LH and 5LHe
Design study for the setup for hypenuclear non-mesonic weak decay measurements
Phase 1: Experiments for proton-rich hypernuclei
Phase 2: Experiment for neutron- rich hypernuclei at R3B/NuSTAR/FAIR
Phase 3: Hypernuclear separator
Hypernuclear magnetic moments
Hypernuclear drip-lines
2005
> 103 /week
> 104 /week
2006
Phase 1
2007
2008
2009
2010
~2011
The HypHI project, T.R. Saito, HYP2006 Mainz

25. HypHI Project at GSI/FAIR
Phase 0
2004
HypHI project started
LOI and progress report to the GSI PAC, Design study
Design study, preparation for the phase 0 experiment
Phase 0: experiment with 3LH, 4LH and 5LHe
Design study for the setup for hypenuclear non-mesonic weak decay measurements
Phase 1: Experiments for proton-rich hypernuclei
Phase 2: Experiment for neutron- rich hypernuclei at R3B/NuSTAR/FAIR
Phase 3: Hypernuclear separator
Hypernuclear magnetic moments
Hypernuclear drip-lines
2005
> 103 /week
> 104 /week
2006
Phase 1
2007
2008
2009
2010
Phase 2
~2011
The HypHI project, T.R. Saito, HYP2006 Mainz

26. HypHI Project at GSI/FAIR
Phase 0
2004
HypHI project started
LOI and progress report to the GSI PAC, Design study
Design study, preparation for the phase 0 experiment
Phase 0: experiment with 3LH, 4LH and 5LHe
Design study for the setup for hypenuclear non-mesonic weak decay measurements
Phase 1: Experiments for proton-rich hypernuclei
Phase 2: Experiment for neutron- rich hypernuclei at R3B/NuSTAR/FAIR
Phase 3: Hypernuclear separator
Hypernuclear magnetic moments
Hypernuclear drip-lines
2005
> 103 /week
> 104 /week
2006
Phase 1
2007
2008
2009
2010
Phase 3
~2011
The HypHI project, T.R. Saito, HYP2006 Mainz

27. International Hypernuclear Network
PANDA at FAIR
2012~
Anti-proton beam
Double L-hypernuclei
g-ray spectroscopy
SPHERE at JINR
Heavy ion beams
Single L-hypernuclei
MAMI C
2007~
Electro-production
Single L-hypernuclei
L-wavefunction
HypHI at GSI/FAIR
Heavy ion beams
Single L-hypernuclei at extreme isospins
Magnetic moments
JLab
2006~
Electro-production
Single L-hypernuclei
L-wavefunction
FINUDA at DAFNE
e+e- collider
Stopped-K- reaction
Single L-hypernuclei
g-ray spectroscopy (2012~)
J-PARC
2009~
Intense K- beam
Single and double L-hypernuclei
g-ray spectroscopy for single L
The HypHI project, T.R. Saito, HYP2006 Mainz

28. The HypHI project, T.R. Saito, HYP2006 Mainz

29. The HypHI project, T.R. Saito, HYP2006 Mainz
Backup slides
The HypHI project, T.R. Saito, HYP2006 Mainz

30. The HypHI project, T.R. Saito, HYP2006 Mainz
Trigger design
target
Tracking trigger (K+ and K0 channel)
Two types of vertices
One vertex in the target
Meson production
Fragmentation
Vertex out of the target
Hypernuclear decay
Free-L decay
FPGA/DSP based trigger module
Efficiency to 4LH events : ~ 14 %
TR1
The HypHI project, T.R. Saito, HYP2006 Mainz

31. The HypHI project, T.R. Saito, HYP2006 Mainz
Tracking trigger
Made with scinitillating fiber trackers
Secondary vertex behind the target
Hypernuclear/L decay
500 MHz
Discriminator card
with GSI chip-3
LVDS
VME Logic module
with FPGA and DSP
T to VME bus
PMT
HAMAMATSU
32 pixels
From Mainz/KaoS collaboration
VME Logic module
with FPGA and DSP
VME Logic module
with FPGA and DSP
New development at GSI
Tracking trigger
The HypHI project, T.R. Saito, HYP2006 Mainz

32. The HypHI project, T.R. Saito, HYP2006 Mainz
Phase 0 of HypHI
The goal of the Phase 0 experiments
To confirm Dubna’s hypernuclear production at 2 A GeV with 6Li primary beams : Mesonic decay L -> p- + p
3LH -> p- + 3He
4LH -> p- + 4He
5LHe -> p- + 4He + p
The HypHI project, T.R. Saito, HYP2006 Mainz

33. Improved setup for phase 0
Positive charged particles
p, d, t, 3He, 4He, 6Li
Negative charged particles p-
The HypHI project, T.R. Saito, HYP2006 Mainz

34. The HypHI project, T.R. Saito, HYP2006 Mainz
Expanding field
FINUDA at Frascati
J-PARC
->Noumi, Tamura, Fukuda, Nakazawa, Hiyama,
-> De Mori
->Motoba, Garialdi, Tedeschi, Tang, Tang, Hahimoto, Song
CEBAF
PANDA at FAIR/GSI
Kaos at MAMI C
The HypHI project, T.R. Saito, HYP2006 Mainz

35. The HypHI project, T.R. Saito, HYP2006 Mainz
Expanding field
FINUDA at Frascati
J-PARC
Difficulties on these experiments
Direct measurements on hypernuclear magnetic moments
Quark bulding blocks (Qurak Pauli effect and so on)
L/S coupling
Kaon currents in nuclei
Hypernuclei away from the b-stability line (at extreme isospins), especiaaly for heavy hypernuclei
Isospin dependence on the hyperon wavefunction
LN interactions
Very neutron rich hypernuclei (cold neutron matter)
Very proton rich hypernuclei
Heavy ion induced hypernuclear spectroscopy
CEBAF
PANDA at FAIR/GSI
Kaos at MAMI C
The HypHI project, T.R. Saito, HYP2006 Mainz

36. The HypHI project, T.R. Saito, HYP2006 Mainz
Why hypernuclei
Baryons in the core of neutron stars
Baryon-baryon interaction n
(udd) p
(uud) L
(uds) S
N.R.
S.H.
D.H.
t ~ s
N.N. : Nuclear reaction
S.H. : Single-s Hypernuclei
D.H. : Double-s Hypernuclei
The HypHI project, T.R. Saito, HYP2006 Mainz

37. Hypernuclear landscape
Essential to study baryon-baryon interaction under SU(3)f
40/64 vertices can be studied with hypernuclei
The HypHI project, T.R. Saito, HYP2006 Mainz

38. The HypHI project, T.R. Saito, HYP2006 Mainz
S=-1 sector
Only 37 L-hypernuclei identified
The HypHI project, T.R. Saito, HYP2006 Mainz

39. The HypHI project, T.R. Saito, HYP2006 Mainz
New VME logic module
Purely VME based
256 channels I/O
LVDS
Fast logic calculations with a large FPGA at 500 MHz
Slow complicated calculations by DSP
Data transfer to the VME bus
Modules will also be used by the MAMI C KaoS experiments
The HypHI project, T.R. Saito, HYP2006 Mainz

40. FAIR: a future facility of GSI
Current facility
NUSTAR
China is an associated member of FAIR!!
The HypHI project, T.R. Saito, HYP2006 Mainz

41. Hypernuclear separator (Phase 3)
Hypernuclear production at 20 A GeV at the FAIR facility
Hypernuclei separated by a superconducting magnet 1m
superconducting magnet
scintillator barrel
target
collimator
sweeping magnet
detector for x,y,DE
TR1
TR2
TP-MUSIC
Sci1
Sci2
to beam dump
ALADiN
Hypernuclear magnetic moments
Hypernuclei toward the nucleon drip-lines
The HypHI project, T.R. Saito, HYP2006 Mainz

42. Hypernuclear separator (Phase 3)
Hypernuclear production at 20 A GeV at the FAIR facility
Hypernuclei separated by a superconducting magnet
sweeping magnet
ALADiN
detector for x,y,DE
Sci2
TR2
scintillator barrel
TR1
superconducting magnet
target 1m
to beam dump
TP-MUSIC
collimator
Sci1
Hypernuclear production at 20 A GeV.
Carbon or diamond target, 12g/cm2.
The HypHI project, T.R. Saito, HYP2006 Mainz

43. Hypernuclear separator (Phase 3)
Hypernuclear production at 20 A GeV at the FAIR facility
Hypernuclei separated by a superconducting magnet
sweeping magnet
ALADiN
detector for x,y,DE
Sci2
TR2
scintillator barrel
TR1
superconducting magnet
target 1m
to beam dump
TP-MUSIC
collimator
Sci1
4m long superconducting magnet.
Separation of hypernuclei with the collimator.
The HypHI project, T.R. Saito, HYP2006 Mainz

44. Hypernuclear separator (Phase 3)
Separation by the 4m 5T magnet
6Li + 12C at 20 A GeV 10 20 30 40
[cm]
6Li, 4LHe, 4He
4LH
3LH, 3H
5LHe
3LHe, 3He
The HypHI project, T.R. Saito, HYP2006 Mainz

45. Hypernuclear separator (Phase 3)
Hypernuclear production at 20 A GeV at the FAIR facility
Hypernuclei separated by a superconducting magnet
sweeping magnet
ALADiN
detector for x,y,DE
Sci2
TR2
scintillator barrel
TR1
superconducting magnet
target 1m
to beam dump
TP-MUSIC
collimator
Sci1
Removing light hadrons from the hypernuclear decay before the sweeping magnet.
The HypHI project, T.R. Saito, HYP2006 Mainz

46. Hypernuclear separator (Phase 3)
Hypernuclear production at 20 A GeV at the FAIR facility
Hypernuclei separated by a superconducting magnet
sweeping magnet
ALADiN
detector for x,y,DE
Sci2
TR2
scintillator barrel
TR1
superconducting magnet
target 1m
to beam dump
TP-MUSIC
collimator
Sci1
Hypernuclear events reconstruction tagged by mesonic and non-mesonic weak decay
The HypHI project, T.R. Saito, HYP2006 Mainz

47. Hypernuclear separator (Phase 3)
Hypernuclear production at 20 A GeV at the FAIR facility
Hypernuclei separated by a superconducting magnet
sweeping magnet
ALADiN
detector for x,y,DE
Sci2
TR2
scintillator barrel
TR1
superconducting magnet
target 1m
to beam dump
TP-MUSIC
Precession of the spin distribution of hypernuclei.
Precession angle :
225 degrees with free-L magnetic moment
205 degrees with 8.8% reduction due to the kaon exchanging current
collimator
Sci1
The HypHI project, T.R. Saito, HYP2006 Mainz

48. Hypernuclear separator (Phase 3)
Hypernuclear production at 20 A GeV at the FAIR facility
Hypernuclei separated by a superconducting magnet
Asymmetric pionic hypernuclear decay
Almost 4 p sr solid angle
sweeping magnet
ALADiN
detector for x,y,DE
Sci2
TR2
scintillator barrel
TR1
superconducting magnet
target 1m
to beam dump
TP-MUSIC
Precession of the spin distribution of hypernuclei.
Precession angle :
225 degrees with free-L magnetic moment
205 degrees with 8.8% reduction due to the kaon exchanging current
collimator
Sci1
The HypHI project, T.R. Saito, HYP2006 Mainz

49. Rate estimate with the hypernuclear separator (Phase 3)
Beam intensity : 1010/s at 20 A GeV
Target : 12C, 12 g/cm2
Reconstruction efficiency in the decay region : 10 %
The HypHI project, T.R. Saito, HYP2006 Mainz