Measurement of 99Mo Yield in 100Mo(p, x) with 30 MeV Proton Irradiation of Multicomponent Submicron Particles-Reference-Cited by-同舟云学术

Measurement of 99Mo Yield in 100Mo(p, x) with 30 MeV Proton Irradiation of Multicomponent Submicron Particles

Published:2018-08 Issue:4 Volume:124 Page:261-265
ISSN:1063-4258
Container-title:Atomic Energy
language:en
Short-container-title:At Energy

Author:

Artyukhov A. A.,Zagryadskii V. A.,Kravets Ya. M.,Kuznetsova T. M.,Men’shikov L. I.,Ryzhkov A. V.,Udalova T. A.,Chuvilin D. Yu.

Publisher

Springer Science and Business Media LLC

Subject

Nuclear Energy and Engineering

Link

http://link.springer.com/article/10.1007/s10512-018-0408-3/fulltext.html

Reference11 articles.

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2. L. I. Men’shikov, A. N. Semenov, and D. Yu. Chuvilin, “Calculation of the recoil atom yield from the reaction 98Мо(n, γ)99Mo from molybdenum disulfide (IV) nanoparticles,” At. Energ., 114, No. 4, 226–229 (2013).

3. D. Yu. Chuvilin, V. A. Zagryadskii, L. I. Men’shikov, et al., RF Patent 2490737, “Method of obtaining the radioisotope molybdenum-99,” subm. Aug. 20, 2013, Byull. Izobret. Polezn. Modeli, No. 23 (2013).

4. M. Lagunas-Solar, “Cyclotron production of 99mTc and 99Mo. An alternative non-reactor supply source of instant 99mTc and 99Mo → 99mTc generators,” Appl. Rad. Isot., 42, 643–657 (1991).

5. S. Takács, Z. Szőcs, F. Tárkányi, et al., “Evaluation of proton induced reactions on Mo-100: new cross sections for production of Tc-99m and Mo-99,” J. Radioanal. Nucl. Chem., 257, 195–201 (2003).

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