Nuclear Energy & Safety Tritium-containing Targets for Neutron Generators
Tritium-containing Targets for Neutron Generators
Description
These targets are intended for generating neutron fluxes with energies of up to 14 MeV for the d (T, n) reaction and 25 MeV for the d (D, n) reaction. These targets provide stable neutron fluxes of the required intensity. The designed lifetimes compare favorably with the best in the world.
Innovative Aspect and Main Advantages
- Neutron flux (n/s) ––––––––––––––––––––––––––––––– 108 to 1013
- Target diameter (mm) –––––––––––––––––––––––––––– 11.6 to 432
- Substrates ––––––––––––––––––––––––––––––––––––– Cu, Mo
- 1T3 and 1D2 sorbents –––––––––––––––––––––––––––– Ti, Zr, SC
- Mass surface density of sorbents (mg/cm2) ––––––––––– 0,5 to 3
- 1T3 and 1D2 atoms per sorbent atom –––––––––––––––– 1,5
- Number of standardized sizes –––––––––––––––––––––– 10
Modification of the target at the request of the client is possible.
Areas of Application
They Are Intended for use in booster of the particles.
Fig. 1 Tritium-Containing Targets for Neutron Generators
Stage of Development
First Stage: a technical process has been established for the serial production of Tritium$containing targets for neutron generators.
Contact Details
Nicolay Kolomiets
Institute for Nuclear Research of the National Academy of Sciences of Ukraine
Prospekt Nauki, 47, Kyiv 03028, UKRAINE
Telephones: (380-44) 525-2349, (380-44) 525-2614
Fax: (380-44) 525-4463
EMmail:
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