serguei sadovsky , ihep, protvino emin-2009, moscow, 19 september 2009
DESCRIPTION
Study of Electromagnetic Interactions of Light Ions in the Framework of the IHEP Ion Program at U70. Serguei Sadovsky , IHEP, Protvino EMIN-2009, Moscow, 19 September 2009 . Outlook. IHEP accelerators Positroniy channel Possible physics domains Conception of experimental setup - PowerPoint PPT PresentationTRANSCRIPT
Study of Electromagnetic Interactions of Light Ions in the Framework of the
IHEP Ion Program at U70
Serguei Sadovsky,
IHEP, Protvino
EMIN-2009, Moscow, 19 September 2009
Outlook IHEP accelerators Positroniy channel Possible physics domains Conception of experimental setup Conclusion
23 декабря 2008 Сессия-конф. СЯФ ОФН РАН 3
IHEP accelerators
U70 accelerator
Linac U30
Buster U1.5
Linac I100
Linac for light ion acceleration: I100p, d ion source
3 м
TOF:ЦФ
HV generatorUp to +750 кV
p N+, O+ N2+,O2
+
2008
N2+,O2
+
p d
100 ns
50 mА p
15 mА d 5 mks 16.7 MeV/n
2008
Light ion source: I100 (laser source of 12C)
IHEP laser (CO2, 2.7 J, 10 m, 0.25 Hz) IGP of RAS laser (…, 10 Hz)
C+5
C+4
C+3
C+2
Рисунок 3
Beam of C5+
40 mA @ entry toI100
1.6 mA @ exit from I100
Light ions: channel from I100 to U1.5
17.11.06: p 72.7 MeV 01.12.06: d 16.7 MeV/n
Light ions: December 2008
d in U70 after 4 magnets
10–12.12.08; d; 16.7–> 455 MeV/n
April 2009: d-beam circulation in U70
Ion beam extraction from U70
5 mm
5mm
Si crystal station
1.71013proton p (U30)
3109carbon 12C6+
11011 deuteron d
2-91011 proton p ( I100 )
NB0Ions in U70
Proposal to study the ion beam extractions in «Positroniy» channel
Experimental area of «Positroniy» channel: two beam magnets and one of two secondary targets are proposed to install, the available Z distance is 15 m
tg1tg2
M1M2
Up to 106 12С/cicle in «Positroniy» channel is expected due to beam extraction with Si Crystal
Extraction efficiency is 0.1%
Crystal bended angle ~ 60 mrad
1.71013proton p
3109carbon 12C6+
11011 deuteron d
2-91011 proton p
NB0Ions in U70
Extraction efficiency vs banded angle
Intensities of secondary radioactive beams in 12С fragmentation
The secondary beam optics allows to have beams of different radioactive nuclei
At the intensity of 12C
primary beam I=3·109
/cycle the fragment intensities variate from I=106 /cycle for 8Li and to I=104 /cycle for 8He
1,9E+069999512,3 y3H
1,9E+069949,55stable3He
1,9E+071326650stable4He
7,4E+05198992807 ms6He
1,3E+042641320,035119 ms8He
1,5E+06198664stable6Li
2,6E+06231777stable7Li
8,9E+05264882,4840 ms8Li
1,9E+05297990,5178 ms9Li
4,4E+0623157,751253 d7Be
3,7E+0629774,2510stable9Be
2,2E+0633082,561,6 106 y10Be
5,2E+0526452,81,4770 ms8B
1,4E+073306638stable10B
2,6E+0736372,670stable11B
7,4E+0429749,50,2126 ms9C
7,4E+0533055219,3 s10C
2,0E+0736360,55320,3 m11C
Ionsper cycle
Momen-tum(GeV/c)
RigidityGeV/c)
σ (12C + 12C) → fragment (mb)
Life- timefragment
Important: the fragments have different rigidity =>fragments identification with Spectroscopic magnet is possible
Physics case 1: study of light nuclei at the limit of neutron stability
Light nuclei beyond the neutron stability
PHYSICS case 2: Nuclear Clastering of the 12С fragments, including short-leaved and exotics nuclei
9Li 178 ms 8Li 838 ms 6He 807 ms8He 119 ms
can be studied at U70
P.Zarubin, JINRLINC-2008
Nuclear ClusteringNuclear Clustering P.Zarubin, JINRLINC-2008
can be studied at U70
Angular distribution of fragments without spectroscopic magnet
16O + p -> 4He + X at 3.25 AGeV/c
V.V.Glagolev at al. 2001
Θ(25AGeV) ~ Θ(3.25AGeV)*3.25/25 => RFr > 1.7 cm at Z = 15 m
Excitation energy per nucleon, MeV
T109
K Liquid
Gas
PHYSICS case 3: phase transition in a cold nuclear matter ?
PHYSICS case 4: neutral meson photoproduction in AA-collisions
b) photoproduction
Coherence condition in the inverse kinematics:
-q2 < 1/Rtarget, i.e.
Eγ < γ/Rtarget = γ/1.2A1/3
Inverse kinematics of neutral meson photoproduction in the AA-collisions
Eγ (max) = γ/1.2A1/3 for 12C + 56Fe -> meson+X = and 25 AGeV/c 12C beam Ethr ~ Eγ (max) ~ mmeson γ = 26.6 Eγ(max) = 1140 MeVThus π0, η, ω , φ photoproduction is possible in the reaction 12C + 56Fe -> meson+X at 25 AGeV/c
The meson energy in the Lab frame is as follows:Emeson > γ mmeson, i.e.
E(π) > 3.6 GeVE(η) > 14.6 GeVE(ω) > 20.8 GeVE(φ) > 27.1 GeV
TrigBm = S1*S2*EPB(E<Ethr1)*EPSD(E<Ethr2)
PSD
LGD2 Magnet
Plastic Ball
target S2
S1
MWPC6
MWPC4MWPC3 MWPC2 MWPC1
MWPC5
UrQMD simulation:C+C at 25A GeV/c,Total pz of beam fragments in lab
TrigTg = S1*S2*EPB(E>Ethr1)*EPSD(E>Ethr2)
Setup conception for the light ion fragmentation studies in ion-ion EM-interaction
Beam
WA98 plastic ball: fragment detection in the target reference frame
ξ=log1.95ΔE 0.95E0.5ΔE −11.226
Projectile Spectator Detector (PSD@CBM) for detection of the beam fragmentation
Spectator spots at Z=15m, EAu=15 AGeV, simulation
Beam hole
XZ
Transverse sizes ~1x1 m2;
Distance from target - 15 m;
Number of modules – 107;
Module dimensions – 10x10x160 cm3
A.P.Ivashkin 2008, INR RAN
PSD for CBM, design, construction and beam test results:
• Modular Lead/Scintillator sandwich compensating calorimeter
• Sampling ratio Pb:Scint=4:1
• Expectation: For thickness δPb=16 mm and δScint=4 mm σE/E ~ 50%/√E
• 60 lead/scintillator sandwiches.
• 10 longitudinal sections
• 6 WLS-fiber/MAPD
MAPDs and amplifiers
A.P.Ivashkin 2008, INR RAN
measurements
Spectroscopic magnet in the experimental aria of the “Positroniy” channel (JINR) and DC
Lead Glass Detector LGD2 (IHEP, Hyperon setup)
Conclusion
• Ion beams at U70 accelerator are expected for users in 2010-2011• The expected intensity of 12C beam in “Positroniy” channel is up to 106/cycle• Different radioactive light ion beams can be created on the base of carbon beam with momentum of 25-30 AGeV/c• An essential part of experimental equipment exists and could be used in the future experimental setup for 12C+A interaction studies • This opens several quite interesting physics domains for experimental studies, including light nuclei at the limit on neutron stability, EM fragmentation of light radioactive nuclei, phase transition in a cold nuclear matter and neutral meson photoproduction• Welcome to participate in the experiment