latest results on hypernuclear physics from the finuda experiment elena botta infn-torino and torino...
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Latest Results on Hypernuclear Physics
from the FINUDA Experiment
Elena BottaINFN-Torino and Torino University
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Overview
• DAFNE and FINUDA
• FINUDA Scientific Program
• Recent results Hypernuclear Spectroscopy MWD & NMWD 6
LH observation
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FINUDA: FIsica NUcleare a DAFNE
DAFNEacceleratorcomplex
DAFNE
Double Annular F-factory for
Nice Experiments
DAFNE
Double Annular F-factory for
Nice Experiments
e-
e+
KLOE
FINUDA
32.5 m
23
.3 m
Energy (GeV) 0.51
Luminosity (cm-2 s-1) 1032
Beam Hor. Dim. at IP (mm) 2.11
Beam Vert. Dim. at IP (mm) 0.021
R.M.S. Bunch length (mm) 30
Crossing angle (mrad) 25
Collision frequency (MHz) 380.44
Bunches/ring 120
Max number of particles/bunch
9.0 1010
Max total mean current (A) 5.5
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FINUDA: FIsica NUcleare a DAFNEThe very first example of a (hyper)nuclear physics fixed-target experiment carried on at a collider (DAFNE @ LNF)
FINUDA
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Optimized to produce
hypernuclei ALZ in a
completely new way
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data taking oct 2003 - jan 04 nov 2006 - jun 07
int. luminosity 220 pb-1 960 pb-1
daily luminosity
6 pb-1 10 pb-1
Total events (M)
30 200
Targets 6Li (2), 7Li (1), 12C (3), 27Al (1), 51V (1) 6Li (2), 7Li (2), 9Be (2), 13C (1), D2O
(1)
Data takings
Bari University & INFN Bari
Brescia University & INFN Pavia
Pavia University & INFN Pavia
Torino University & INFN Torino
Trieste University & INFN Trieste
Torino Polytechnic & INFN Torino
L.N.F. / INFN Frascati
Seoul National University
Teheran Shahid Beheshty University
University of Victoria
JINRDubna
Collaborating institutes
FINUDA: the Collaboration
Kyoto, KEK, RIKEN
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The FINUDA detector
Mechanical support (clepsydra)For:
2424 Straw Tubes (longitudinal + stereo) 16 Low-Mass Drift Chambers (LMDC) 18 m-strip vertex detectors (ISIM/OSIM) Inner scintillator barrel – 12 slabs (TOFINO) 8 Targets
Detector capabilities: Selective trigger based on fast scintilla-
tion detectors (TOFINO, TOFONE) precise K- vertex identification (~ 1 mm3)
(ISIM P.ID.+ x,y,z resolution + K+ tagging)
p, K, p, d, … P.ID. (OSIM and LMDC dE/dx) High momentum resolution
(6‰ FWHM for π- @270 MeV/c for spectroscopy)
(1% FWHM for p- @270 MeV/c for decay study)
(6% FWHM for π- @110 MeV/c for decay study)
(2% FWHM for p @400 MeV/c for decay study)
(tracker resolution + He bag + thin targets)
Neutron detection TOF (TOFONE-TOFINO)
Simultaneous study of formation and decay of strange hadronic systems by full event reconstruction
Magnet end-cap
Magnet yokeB = 1.0 T
Super-conductingCoil
e+
e-
Apparatus designed for a typical collider experiment:
Cylindrical geometry large solid angle (~ 2p
sr) multi-tracks analysis 6
Outer scintillator barrel – 72 slabs(TOFONE)
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(BR 49% - Ekin ~ 16 MeV)
target region- 12 scintillators (TOFINO)- 8 silicon microstrips layer (ISIM)- 8 targets- 10 silicon microstrip layer (OSIM)
some hundreds Φ/s
The FINUDA interaction region
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e+ + e- f (1020) K+ + K- (127 MeV/c) K-
stop + AZ ALZ + p-
ALZ A(Z+1) + p-
ALZ A-2(Z-1) + p + n
ALZ A-3(Z-1) + p + n + n
Hypernuclear Physics @FINUDA
G - p MWD
NMWD
Spectroscopy
- different targets in the same run ➥ high degree of flexibility
- simultaneous tracking of μ+ from the K+ decay ➥ energy and rate calibration
transparency ➥ “high” resolution spectroscopy- very thin targets (0.1 ÷ 0.3 g/cm2)
- coincidence measurement with large acceptance
complete event ➥ decay mode study
FINUDA key features
1N induced Gp
2N induced Gnp
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FINUDA Scientific ProgramMain topics ( .. not complete!):
Hypernuclear spectroscopy: PLB 622 (2005) 32: 12LC
PLB 698 (2011) 219: 7LLi, 9
LBe, 13LC, 16
LO
Weak Decay: NPA 804 (2008) 151: NMWD 5LHe, 7
LLi, 12LC
PLB 681 (2009) 139: MWD (5LHe,) 7
LLi, 9LBe, 11
LB, 15LN
PLB 685 (2010) 247: NMWD & 2N 5LHe, 7
LLi, 9LBe, 11
LB, 12LC,
13LC, 15
LN, 16LO
PLB 701 (2011) 556: NMWD & 2N 5LHe, 7
LLi, 9LBe, 11
LB, 12LC,
13LC, 15
LN, 16LO
NPA, accepted for publication 2012: (n, n, p) events from 2N
Rare Decays: NPA 835 (2010) 439; 4LHe, 5
LHe 2-body decays
Neutron-rich Hypernuclei: PLB 640 (2006) 145: upper limits 6LH, 7
LH and 12LBe
PRL 108 (2012) 042501: 6LH observation
“By products”: - AKNC (PRL 94 (2005)212303, PLB 654 (2007) 80, PLB 669 (2008) 229) - (K0 K+) on 7Li at threshold (PLB 649 (2007) 25) - multinucleon K- absorption on 6Li,12C (NPA 775 (2006) 35)- A(K-
stop, p+/- S-/+)A’ (PLB 704 (2011) 474)
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Hypernuclear Spectroscopy: p-shell
absolute energy scale known at the level of 0.3 MeV(we know from the K+mn – self calibrated apparatus)momentum resolution: 0.5-0.9% FWHM
M. Juric et al., NPB 52 (1973), 1
H. Tamura et al.NPA 754 (2005) 58cO. Hashimoto, H. Tamura
PPNP 57 (2006) 564(E336 data)
Formation probabilityit is connected to the number of events in the peaks,calculated taking into account acceptances and efficiencies(K+mn – rate calibrated apparatus)
First world measurement of formation probability
M.Agnello et al., PLB 698 (2011) 219
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BL = M(AZ) + M(L) - Mhyp
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M. Juric et al., NPB 52 (1973), 1
H. Tamura et al.NPA 754 (2005) 58c
M. Juric et al., NPB 52 (1973), 1CERN
O. Hashimoto, H. Tamura PPNP 57 (2006) 564
(E336 data)
E930(‘01) CollaborationM.Agnello et al., PLB 698 (2011) 219
O. Hashimoto, H. Tamura PPNP 57 (2006) 564
(E336 data)
BNL
11
16LO
15LN
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Constraints on the threshold K- nuclear
potential from FINUDA AZ(K-stop, p
-)ALZ
spectra
M.Agnello et al., PLB 698 (2011) 219
A.Cieply et al., PLB 698 (2011) 226
the comparison with the FINUDA dataslightly favors a deep K- nuclear potential12
partial formation rates/(structure fractions) 1sL formation rates
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Hypernuclear weak decay studies: p-shell Coincidence measurement
p
-
charged Non-Mesonic channel
K- stop + AZ ALZ + p-
ALZ A-2(Z-1) + p + n
NMWD 170-600 MeV/c
charged Mesonic channel
K- stop + AZ ALZ + p-
ALZ A(Z+1) + p-
S-EX 260-280 MeV/c MWD
80-110 MeV/c
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MWD & NMWD in FINUDA: strategy
12LC
11LB
kinetic energy (MeV)
Inclusive production p- spectra
K-np background corrected
11LB
decay p- and p spectra
(Lqf decay)/K-np background subtracted &
acceptance corrected
p
11LB
MWD NMWD
NMWD
p-
p
12LC
magnetic analysis !!
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present data
T. Motoba PTPS 117 (1994) 477
previous data
A.Gal NPA 828 (2009) 72
A
Mesonic decay ratio: Gp- / GL
Gp- / GL = Gtot / GL BR -p
strong nuclear structure effects
p distortion, MWD enhancement proved !
Extensive calculations:• Motoba et al., Progr. Theor. Phys.
Suppl. 117 (1994) 477• Gal Nucl. Phys. A 828 (2009) 72.
7Be: 3/2-gs & 1/2- (429keV)
3-body decays
J p assignment: 7ΛLi (1/2+), 9ΛBe (1/2+),
11ΛB (5/2+), 15
ΛN (3/2+)first determination
M.Agnello PLB 681 (2009)
139
A.Gal NPA 828
(2009) 72
MWD indirect spectroscopic tool ! 15
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p- • Spectrum of negative pions for events in which a proton is detected in coincidence with a π-
• Asking for the proton coincidence a clear peak emerges at 272 MeV/c (ground state)
• Background: K- np Σ- p
Σ- n π-
NMWD p
NMWD: p spectra coincidence measurement: method
Acceptance corrected
M. Agnello et al., NPA 804 (2008), 151: 5LHe, 7
LLi and 12LC
12LC
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Garbarino
PRC 69 (2004),054603
FINUDA NPA 804 (2008),151FINUDA NPA 804 (2008),151
KEK E462/E508
PLB 597 (2004), 249
Comparisons with theory and KEK results
5LHe
KEK E462/E508
PLB 597 (2004), 249
FINUDA NPA 804 (2008),151
12LC
Garbarino PRC 69 (2004),054603
FINUDA NPA 804 (2008),151
15 MeV threshold !
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Alow
Ahigh
m from fit12
LC
NMWD: G2N from ( -p , p) events
M.Agnello et al., PLB 685 (2010) 247
NMWD p
gaussian fitfree m
Alow: spectrum area below m 1N + 2N + FSI
Ahigh: spectrum area above m 1N + FSI 2N(>70 MeV) ~ 5% 2Ntot
G.Garbarino, A.Parreno and A.Ramos, Phys.Rev.Lett. 91 (2003) 112501. Phys.Rev. C 69 (2004) 054603.
assumption
W.Alberico and G.Garbarino, Phys. Rev. 369 (2002) 1.
assumption
G2N/GNMWD & Gn/Gp independent on A
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FSI & LNN contribution evaluation: systematics
NMWD: G2N
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systematics: all p-shell
GNM
G2=
Gn/Gp+ 1 + G2/Gp
G2/Gp= 0.24 ± 0.10
Bhang et al., EPJ A33 (2007) 259.
a + b A =R(A) = 0.5 + G2/Gp
1 + G2/Gp
+ b A
FSI linear on A up to A=16
Assumption: G2/G1 and Gn/Gp indipendentfrom A supported by exp and theory
Bauer et al., NPA 828 (2009) 29
Bhang et al., EPJ A33 (2007) 259: ~ 0.4 12
LCM. Kim et al., PRL 103 (2009) 182502: 0.29 ± 0.13 12
LCJ.D.Parker et al., PRC 76 (2007), 035501: ≤ 0.24 (95% CL) 4
LHe
N(Lp np) +Alow + Ahigh
Alow
=0.5 N(Lp np) + N(Lnp nnp) + Np
FSI-low
N(Lnp nnp) + NpFSI-low + Np
FSI-high
R =
Gp
G2
=1 – [R(A) – bA]
[R(A) – bA] - 0.5= 0.43 ± 0.25
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NMWD: G2N from ( -p , p, n) events
a + b A =R(A) = G2
0.5 Gp
+ b A G2/Gp not dependent on A
Np ( Ep> m p single spectra fit)
Nn (cos θ ≥- 0.8, Ep< m-20 MeV) =
N(Lnpnnp) + NFSI
0.5 N(Lpnp) + NFSI
R(A) =
G2/Gp
0.39±0.16stat +0.04sys-0.03sys G2/GNM
0.21±0.07stat+0.03sys -0.02sys
• low statistics • direct measurement• reduced error
M. Kim et al., PRL 103 (2009) 182502: 0.29 ± 0.13 12
LCFINUDA Coll. et al., PLB 685 (2010) 247: 0.24± 0.10
systematics: all p-shell
M.Agnello et al., PLB 701 (2011) 556
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3 fourfold coincidence (p-,n,n,p) events:
1 exclusive 9LBe6Li+p+n+n event
2 exclusive Lnpnnp 7LLi4He+p+n+n decay events
First direct experimental evidence of 2N-induced NMWD !!
M.A
gn
ello
et a
l., NPA
in p
ress
doi:
10
.10
16
/j.nu
clph
ysa
.20
12
.01
.02
4
NMWD: evidence for ( -p , p, n, n) events
p -p = 276.93 MeV/c Etot = 178.3 MeV Q-value = 167 MeV p miss = 216.6 MeV/c E(n1) = 110.2 MeV E(n2) = 16.9 MeV E(p) = 51.0 MeV
q (n1 n2) = 95°θ (n1 p) = 102°θ (n2 p) = 154°no n-n or p/n scattering
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Search for light n-rich hypernucleiHypernuclei with a large neutron excess (Dalitz et al., N. Cim. 30 (1963) 489,L. Majling, NPA 585 (1995) 211c, Y. Akaishi et al., Frascati Physics Series XVI (1999) 59.)
n-rich hypernuclei: production(K-
stop, p+)
K- + p L+p0 p0 + p n + p+ (2-step) S-EX + C-EXK- + p S-+p+ S- + p n + L (1-step) S-EX
K.Kubota et al, NPA 602 (1996) 327.9LHe (9Be) U.L.=2.3 10-4/K-
stop; 12LBe(12C) U.L.=6.1 10-5/K-
stop; 16LC(16O) U.L.=6.2 10-5/K-
stop
T.Y.Tretyakova et al., Nucl. Phys. A 691 (2001) 51c (10-6-10-7/K-stop)
M. Agnello et al. Phys. Lett. B 640 (2006) 1456LH (6Li) U.L.= (2.5 ± 1.4) 10-5/K-
stop; 7LH(7Li) U.L.= (4.5± 1.4) 10-5/K-
s; 12LBe(12C) U.L.=
(2.0 ± 0.4) 10-5/K-stop;
(p-, K+)p- + p p0 + n p0 + p L + K+ (2-step) AP + C-EXp- + p K0 + L K0 + p n + K+ (2-step)p- + p K+ + S- S- + p n + L (1-step) AP
P.K.Saha et al., PRL 94 (2005) 052502: 10LLi (10B) ds/dW = 11.3±1.9 nb/sr
T.Y.Tretyakova et al., Phys. At. Nucl. 66 (2003) 1651 23
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n-rich hypernuclei: 6LH
L. Majling, NPA 585 (1995) 211c- binding energy- prod. rate ~ 10-2 * hyp. prod. rate in (K-
stop, p-)
Y. Akaishi et al., AIP Conf. Proc. 1011 (2008) 277K.S. Myint, et al., Few Body Sys. Suppl. 12 (2000) 383Y. Akaishi et al., Frascati Phys. Series XVI (1999) 16
“coherent” -L S coupling in 0+ states LNN three body force
5.8
MeV
4.2 MeV
24
Dalitz et al., N. Cim. 30 (1963) 489 (binding energy 4.2 MeV)
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K-stop + 6Li 6
LH + p+
6LH 6He + p-
M(K-) + 3 M(n) + 3M(p) – B(6Li) = M(6LH) + T(6
LH) + M(p+) + T(p+)
M(6LH) = 4 M(n) + 2M(p) – B(6He) + T(6He) + M(p-) + T(p-)
T(p+) + T(p-) = M(K-) + M(p) – M(n) – B(6Li) + B(6He) –T(6He) – T(6
LH) – M(p+) –
M(p-)
= 203.0 ± 1.3 MeV (203.5÷203.2 MeV with BL= 0÷6 MeV)
cut on T(p+) + T(p-): 202÷204 MeV
6LH search with FINUDA
25
€
M 2(6He) + p2(π −) −M(6He)
€
M 2(6ΛH) + p2(π +) −M(6ΛH)
M(6ΛH) = M(5H) +M(Λ) − B(Λ)
independent reactions: decay at rest
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absolute energy scale: m+(235 MeV/c) from Km2
Dp< 0.12 MeV/c
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249÷255 MeV/c (sp= 1.1 MeV/c)
130÷138 MeV/c (sp= 1.2 MeV/c)
selection:T(p+)+T(p-) = 202÷204 MeV
3 candidate events2.7 107 K-
stop events
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Background sources:
• fake coincidences: p+(249÷255 MeV/c) & p-(130÷138 MeV/c) 0.27±0.27 ev.
• K-stop + 6Li S+ + p- + 4He + n (end point ~190 MeV/c)
n + p+ (end point ~282 MeV/c) 0.16±0.07 ev.
• K-stop + 6Li 4
LH + n + n + p+ (end point ~252MeV/c) 4He + p- (p(p-) = 133 MeV/c) negligible
6LH/K-
stop production rateTotal background: BGD1 + BGD2 = 0.43 ± 0.28 events on 6Li Poisson statistics: 3 events DO NOT belong to pure background: C.L.= 99%
R * BR(p-) = (3 – BGD1 – BGD2) (e(p-))-1 (e(p+)) -1 / (n. K-stop on 6Li)
R * BR(p-) = (2.9 ± 2.0) 10-6/K-stop
R = (5.9 ± 4.0) 10-6/K-stop (2.5 ±
0.4+0.4-0.1) 10-5/K-
stop
Agnello et al., PLB 64(2006) 145
6LH/K-
stop production rate
27M. Agnello et al., PRL 108 (2012) 042501
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kinematics
Ttot (MeV)
p(p+) (MeV/c)
p(p-) (MeV/c)
M(6LH)
formation(MeV/c2)
M(6LH)
decay(MeV/c2)
202.5±1.3
251.3±1.1
135.1±1.2
5802.33±0.96
5801.41±0.84
202.7±1.3
250.0±1.1
136.9±1.2
5803.45±0.96
5802.73±0.84
202.1±1.3
253.8±1.1
131.2±1.2
5799.97±0.96
5798.66±0.84
mean value = 5801.4±1.1
BL = 4.0±1.1 MeV (5He + L) BL= 5.8 MeV (5He + L) LNN force: 1.4 MeV
formation – decay = 0.98±0.74 MeV excitation spectrum of 6
LH
28M. Agnello et al., PRL 108 (2012) 042501
Akaishi
Dalitz, Majling
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… to combine and expand research activities in strangeness nuclear physics in the world