f. negoita, [email protected] bucuresti, 28 feb. 2006 participation of nipne-bucharest in...
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IFIN-HH
F. Negoita, [email protected] Bucuresti, 28 Feb. 2006
Participation of NIPNE-Bucharestin SPIRAL2 Project
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IFIN-HH
F. Negoita, [email protected] Bucuresti, 28 Feb. 2006
I. A system for Beam Losses Measurements (BLM) based on neutron and gamma detection
II. Estimation of secondary beams intensities obtained using fusion-evaporation reactions induced by high intensity heavy-ion primary beams
III. Development of 1+ ion-source
IV. Secondary beam lines
V. Physics and instrumentation for physics
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IFIN-HH
F. Negoita, [email protected] Bucuresti, 28 Feb. 2006
I. A system for Beam Losses Measurements (BLM) based on neutron and gamma detection
Why?➢ to avoid quenching of superconducting cavities➢ to maintain prompt radiation level bellow given limits➢ to diminish activation and protect accelerator components➢ to help tunning/optimizing the beam
It must provide: - the intensities of beam losses - the positions where the losses occur - a fast signal if the limit(s) is(are) overpassed
The limits are: - at ion-source, LEBT, RFQ, MEBT: several % - 1 W /m (or per cavity) along LINAC - at HEBT: ?
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IFIN-HH
F. Negoita, [email protected] Bucuresti, 28 Feb. 2006
Ion source: d+d reaction (reaction on deuterons previously implanted) (+LEBT) produces ~2MeV neutrons
Ed < ~5 MeV: d+d reactions rather improbable
(RFQ, MEBT, reactions on Cu, Nb, Fe below threshold first cavities) (low Z elements, e.g. Li ?)
Higher energies:
Double differentialneutron yieldon C, Cu and Pbat 33 MeV deuteron incident energy from PRC29(1984)1307
Total neutron yield on Be and Cu [NIM 96(1971)581]
Gamma and neutron generationby beam losses
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IFIN-HH
F. Negoita, [email protected] Bucuresti, 28 Feb. 2006
CountingRates
Simulationare based on:- exp. data d (33 MeV) on Cu;- dimension of detector 1x1x1 cm3- threshold on generated light in det.: 100 eeKeV
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IFIN-HH
F. Negoita, [email protected] Bucuresti, 28 Feb. 2006
Up-down ratio of counting rates transversal information on beam losses
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IFIN-HH
F. Negoita, [email protected] Bucuresti, 28 Feb. 2006
X-ray background
20 µSv/h
20 µSv/h
140 µSv/h
50 µSv/h
1760 µSv/h
780 µSv/h
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IFIN-HH
F. Negoita, [email protected] Bucuresti, 28 Feb. 2006
BLM - options
1. Ion-source: neutrons for d+d reactions measured by 3He-counters
2. HEBT: if higher losses are allowed, then gas detectors
3. Linac: a) a chain of plastic scintillators placed one each meter (sc-cavity), parallel with Linac at about 1.5 m from beam line can give: - resolution in position of loss at level of 0.5 m - counting rates of 5x103 at 33 MeV, 1 W (for 103 cm3 detection volume) - direct relation to extract intensity of losses b) A chain at 0.3 m from beam line, one detector near each sc-cavity and each diagnostic box: - counting rates 25 larger - better resolution in position - intensity of loss is deduced from counting rates of several (3) detectors
Main problems are at the level RFQ and first cavities of LINAC
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IFIN-HH
F. Negoita, [email protected] Bucuresti, 28 Feb. 2006
Important question for establishing the size detectors (counting rates):
How much fast the response have to be ?
If counting rates is 104/s for 1 W 10 counts / millisecond => o standard deviation = 3 counts / msSo, if we have to put the threshold at 6 standard deviations (30 counts/ms) then response time is ~millisecond for losses > 3 W
For a loss of ~ 1.6 W response time is ~ 10 ms.
For a loss of ~ 1.06 W response time is ~ 1000 ms
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IFIN-HH
F. Negoita, [email protected] Bucuresti, 28 Feb. 2006
Phase Task People Start End Needs Person-months
Design
n- production/attenuationsimulations
F.N.M. Preda
2004-Q2 2007
Experimental validation all 2006 2007
Detector efficiency simulation A. ButaS. Iacob
2006 2007
Test(prototypes) detectorsconstruction and testing;radiation hardness tests
all 2005 2007_Q4 Collab. with SOREQ
Electronic design M.Petcu,H. Petrascu, +?
2006 2007 Work to be done togetherwith GANIL experts
Mechanical design: detectors,fibers, cables, supports
G.Dumitru+?
2007_Q1 2007_Q4 Work to be done togetherwith GANIL experts
Realization
Detector production (buying) I. Cruceru, ... 2008_Q1 2009_Q1
Detector testing/calibration A.B.,.... 2008_Q2 2009_Q1
Electronics buying (production) M.P., H.P.,.... 2008 2009
Electronics testing “ 2008 2009
Software development:acquisition, processing,graphical presentation
S.I., M.D. +? 2007 2009 Work to be done togetherwith GANIL experts
Installation on site all
Calibration with beam all
γ
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IFIN-HH
F. Negoita, [email protected] Bucuresti, 28 Feb. 2006
II. Estimation of secondary beams intensities obtained using fusion-evaporation reactions
Existent codes: 1. Fusion-evaporation codes using Monte Carlo method (PACE, LILITA): - can give cross sections and energy-angle distributions - time consuming (especially for exotic nuclei) 2. Fusion-evaporation codes using calculation of population of spin-excit.energy matrix - can give cross section but not distributions 3. Monte Carlo made by L.Penescu to determine in target production at efficiency of stopper
Sortiefaisceau
radioactif
Stoppeurrésidu
Is= N
cible I
Intensity of secondary beam:
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IFIN-HH
F. Negoita, [email protected] Bucuresti, 28 Feb. 2006
Proposal: To link the codes such as from a minimal input: - projectile: A, Z (and incident position distribution) - target: A, Z, density (and melting point) - residual nucleus of interest: A, Z - entrance window, stopper: A, Z, density
to get: i) excitation function and therefrom the incident energy, target thickness (and maxim current) then input the geometry, call fus.-evap. MC-codes, pass distributions to MC-codes of L.Penescu and get: ii) percentage of nuclei stopped in target, window and stopper
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IFIN-HH
F. Negoita, [email protected] Bucuresti, 28 Feb. 2006
III. Development of 1+ ion-source
Part of the IRENA ion-source under development at IPN-Orsay
NIPNE-Bucharest contribution within T4 /EURISOL:● design and realize two new version:
i) with a thiner cathode and ii) with an oxidate cathode and other improuvement to reduce the displacement due to dilation
● participation in tests at IPN-Orsay
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IFIN-HH
F. Negoita, [email protected] Bucuresti, 28 Feb. 2006
Proposal: * participation in design, construction and tests of the the version of IRENA ion-source adapted for SPIRAL2
* possible participation in development in ECR 1+ ion-source for secondary beams
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IFIN-HH
F. Negoita, [email protected] Bucuresti, 28 Feb. 2006
IV. Secondary beam lines
Ing. Gheorghe Mateescu presents the experience of NIPNE withRomanian fabricants of equipments for beam lines (mechanical components, electromagnetic elements, etc.)
A list of fabricant and components produced in Romania can be provided to SPIRAL2 management to be considered when the invitations to tender will be launched.
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IFIN-HH
F. Negoita, [email protected] Bucuresti, 28 Feb. 2006
I. A system for Beam Losses Measurements (BLM) based on neutron and gamma detection
II. Estimation of secondary beams intensities obtained using fusion-evaporation reactions induced by high intensity heavy-ion primary beams
III. Development of 1+ ion-source
IV. Secondary beam lines
V. Physics and instrumentation for physics
![Page 20: F. Negoita, negoita@ifin.nipne.ro Bucuresti, 28 Feb. 2006 Participation of NIPNE-Bucharest in SPIRAL2 Project](https://reader036.vdocuments.us/reader036/viewer/2022062309/5697bff91a28abf838cbf95e/html5/thumbnails/20.jpg)
IFIN-HH
F. Negoita, [email protected] Bucuresti, 28 Feb. 2006
gamma-CE spectroscopy in beam (AGATA), in beta-decay, isomersreaction studies: break-upneutron detection: beta-delay neutron spectroscopy, reaction studies
V. Physics and instrumentation for physics
Nuclear Structure
Nuclear astrophysics
Nuclear interaction and hadronic matter INDRA, FAZIA
Nuclear Data ?