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CERN Document Server Pronađeno je 2,029 zapisa  1 - 10slijedećikraj  idi na zapis: Pretraživanje je potrajalo 0.14 sekundi 
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Neutron-driven nuclear transmutation by adiabatic resonance crossing / Arnould, H
CERN-SL-99-036-EET - Geneva : CERN, 1999. - 369 p.

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2.
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Book cover Neutron-driven nuclear transmutation by adiabatic resonance crossing
EUR-19117. - Luxembourg : Euratom, 1999. - 376 p.

CERN library copies
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3.
(52)
Results from the TARC experiment : spallation neutron phenomenology in lead and neutron-driven nuclear transmutation by adiabatic resonance crossing / TARC Collaboration
CERN-SL-2001-033-EET.- Geneva : CERN, 2002 - 180 p. Report - Published in : Nucl. Instrum. Methods Phys. Res., A 478 (2002) 577-730 Access to fulltext document: PDF; - Please contact the library if you need to access this document.
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Results from the TARC experiment: spallation neutron phenomenology in lead and neutron-driven nuclear transmutation by adiabatic resonance crossing. / Abánades, A ; Aleixandre, J ; Andriamonje, Samuel A (CEA-Saclay) ; Angelopoulos, Angelos ; Apostolakis, Alcibiades J ; Arnould, H ; Belle, E ; Bompas, C A ; Brozzi, Delecurgo ; Bueno, J et al.
The results of the TARC experiment are summarized herewith, whose main purpose is to demonstrate the possibility of using Adiabatic Resonance Crossing (ARC) to destroy efficiently Long-Lived Fission Fragments (LLFFs) in accelerator-driven systems and to validate a new simulation developed in the framework of the Energy Amplifier programme. An experimental set-up was installed in a CERN PS proton beam line to study how neutrons, produced by spallation at relatively high energy (En * 1 MeV), slow down quasi adiabatically, with almost flat isolethargic energy distribution and reach the capture resonance energy of an element to be transmuted where they will have a high probability of being captured. [...]
SL-Note-2000-035-EET.- Geneva : CERN, 2000 Note
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Experimental Verification of Neutron Phenomenology in Lead and Transmutation by Adiabatic Resonance Crossing in Accelerator Driven Systems / Abánades, A ; Aleixandre, J ; Andriamonje, Samuel A ; Angelopoulos, Angelos ; Apostolakis, Alcibiades J ; Arnould, H ; Belle, E ; Bompas, C A ; Brozzi, Delecurgo ; Bueno, J et al.
Energy and space distributions of spallation neutrons (from 2.5 and 3.57 GeV/c CERN proton beams) slowing down in a 3.3 x 3.3 x 3 m3 lead volume and neutron capture rates on long-lived fission fragments 99 Tc and 129 I demonstrate that Adiabatic Resonance Crossing (ARC) can be used to eliminate efficiently such nuclear waste and validate innovative simulation..
CERN-LHC-98-012-EET.- Geneva : CERN, 1999 - 15 p. Report - Published in : Phys. Lett. B Access to fulltext document: PDF; - Please contact the library if you need to access this document.
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6.
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Experimental verification of neutron phenomenology in lead and of transmutation by adiabatic resonance crossing in accelerator driven systems : a summary of the TARC project at CERN / Abánades, A ; Aleixandre, J ; Andriamonje, Samuel A ; Angelopoulos, Angelos ; Apostolakis, Alcibiades J ; Arnould, H ; Belle, E ; Bompas, C A ; Brozzi, Delecurgo ; Bueno, J et al.
The Transmutation by Adiabatic Resonance Crossing (TARC) experiment was carried out as PS211 at the CERN PS from 1996 to 1999. Energy and space distributions of spallation neutrons (produced by 2.5 and 3.57 GeV/c CERN proton beams) slowing down in a 3.3*3.3*3 m/sup 3/ lead volume and neutron capture rates on long-lived fission fragments /sup 99/Tc and /sup 129/I demonstrate that Adiabatic Resonance Crossing (ARC) can be used to eliminate efficiently such nuclear waste and validate innovative simulation. [...]
2001 - Published in : Nucl. Instrum. Methods Phys. Res., A 463 (2001) 586-92
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7.
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Experimental verification of neutron phenomenology in lead and transmutation by adiabatic resonance crossing in accelerator driven systems / Arnould, H ; Bompas, C A ; Del Moral, R ; Lacoste, V ; Vlachoudis, V ; Aleixandre, J ; Bueno, J ; Cerro, E ; González, O ; Tamarit, J et al.
Energy and space distributions of spallation neutrons (from 2.5 and 3.57 GeV/c CERN proton beams) slowing down in a 3.3*3.3*3 m/sup 3/ lead volume and neutron capture rates on long-lived fission fragments /sup 99/Tc and /sup 129/I demonstrate that Adiabatic Resonance Crossing (ARC) can be used to eliminate efficiently such nuclear waste and validate innovative simulation. (17 refs)..
1999 - Published in : Phys. Lett. B 458 (1999) 167-80
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8.
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Experimental Verification of Neutron Phenomenology in Lead and Transmutation by Adiabatic Resonance Crossing in Accelerator Driven Systems: a Short Summary / Abánades, A ; Aleixandre, J ; Andriamonje, Samuel A (CEA-Saclay) ; Angelopoulos, Angelos ; Apostolakis, Alcibiades J ; Arnould, H ; Belle, E ; Bompas, C A ; Brozzi, Delecurgo ; Bueno, J et al.
The Transmutation by Adiabatic Resonance Crossing (TARC) experiment was carried out as PS211 at the CERN PS from 1996 to 1999. Energy and space distributions of spallation neutrons (from 2.5 and 3.57 GeV/c CERN proton beams) slowing down in a 3.3x3.3x3 m3 lead volume and neutron capture rates on long-lived fission fragements 99Tc and 129I demonstrate that Adiabatic Resonance Crossing (ARC) can be used to eliminate efficiently such nuclear waste and validate innovative simulation..
SL-Note-2000-034-EET.- Geneva : CERN, 2000 - 9 p. Note Fulltext: PDF;
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Cover not available The TARC experiment (PS211) : neutron-driven nuclear transmutation by adiabatic resonance crossing / Revol, Jean Pierre Charles (ed.)
CERN-99-11. - Geneva : CERN, 1999. - 369 p.


ebook
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Mapping of the thermal neutron distribution in the lead block assembly of the PS-211 experiment at CERN, using thermoluminescence and nuclear track detectors / Savvidis, E ; Eleftheriadis, C ; Kitis, G
The main purpose of the TARC (transmutation by adiabatic resonance crossing) experiment (PS-211), was to demonstrate the possibility to destroy efficiently long-lived fission fragments (LLFF) in accelerator driven systems (ADS). The experimental set-up which consisted of a lead block with dimensions 3.3 * 3.3 * 3 m/sup 3/, was installed in a CERN proton synchrotron (PS) beam line. [...]
2002 - Published in : Radiat. Prot. Dosim. 100 (2002) 103-106
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