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Fusion Science and Technology Volume 72, 2017 - Issue 4: Selected papers from the Twenty-Second Topical Meeting on the Technology of Fusion Energy—Part 2
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Technical Notes

Neutron Generation in CANDOR, an Advanced-Fuel Fusion Experiment

M. ZucchettiPolitecnico di Torino, DENERG, Italy;Massachussetts Institute of Technology, Cambridge, MassachusettsCorrespondence[email protected]
,
M. RivaPolitecnico di Torino, DENERG, Italy;University of California, Los Angeles, California
,
R. TestoniPolitecnico di Torino, DENERG, Italy
,
L. CandidoPolitecnico di Torino, DENERG, Italy
&
B. CoppiMassachussetts Institute of Technology, Cambridge, Massachusetts
Pages 731-736 | Received 15 Sep 2016, Accepted 26 Apr 2017, Published online: 07 Aug 2017
 
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Abstract

CANDOR is a high-field advanced fusion fuel cycle experiment based on Ignitor, but with larger dimensions and higher fusion power: it is a feasibility study of a high-field Deuterium-Helium-3 (D3He) experiment of larger dimensions and higher fusion power than Ignitor, still based on the core Ignitor technologies. Results of investigations on the feasibility of D3He burning and side neutrons production in D3He plasmas and specifically in CANDOR show that, with the initial use of DT triggering, the need for an intense auxiliary heating would be considerably alleviated. The total released 14 MeV neutron energy during the 16-second burning sums to about 210 MJ. DT and DD neutron currents incoming in the CANDOR plasma chamber wall and the Neutron Wall Loads have been computed. D3He ignition could be studied in CANDOR, with modest and conservative developments of the present technology. CANDOR has a low neutron wall loading, softer neutron spectrum, low radiation damage, and - consequently - lower neutron induced activation and radioactive inventory.

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