论文信息 - Residual long-lived radioactivity distribution in the inner concrete wall of a cyclotron vault.

Residual long-lived radioactivity distribution in the inner concrete wall of a cyclotron vault.

We measured the depth distribution of residual long-lived radioactivity in the inner concrete wall of a cyclotron vault by assaying concrete cores and we estimated the neutron flux distribution in the inner concrete wall by means of activation detectors. Nine long-lived radioactive nuclides (46Sc, 59Fe, 60Co, 65Zn, 134Cs, 152Eu, 154Eu, 22Na, and 54Mn) were identified from the gamma-ray spectra measured in the concrete samples. It was confirmed that the radionuclides induced by thermal neutrons through the (n, gamma) reaction are dominant, and that the induced activity by thermal neutrons is greatest at a depth of 5 to 10 cm rather than at the surface of the concrete and decreases exponentially beyond a depth of about 20 cm. By comparing the radioactivity and neutron flux distributions, we can estimate the induced long-lived radioactivity in concrete after a long period of operation from the short-term activation measurement.

[1] S. Ban,et al. Measurements of radionuclides induced in the accelerator structure of the KEK-PS. , 1982, Health physics.

[2] Y. Ikeda,et al. Experiment and analysis of neutron spectra in a concrete assembly bombarded by 14-MeV neutrons , 1989 .

[3] R. Ristinen,et al. Residual radioactivity in a cyclotron and its surroundings. , 1986, Health physics.

[4] T. Nakamura,et al. Thermalization of accelerator-produced neutrons in a concrete room. , 1991, Health physics.

[5] S. Ban,et al. Induced radioactivities in concrete constituents irradiated by high-energy particles. , 1984, Health physics.

[6] K. Kobayashi,et al. Depth distribution of residual radioactivities in the concrete wall of an electron linac facility. , 1991, Health physics.

[7] Kazuo Shin,et al. Neutron Production from Thick Targets of Carbon, Iron, Copper, and Lead by 30- and 52-MeV Protons , 1983 .

[8] Takashi S. Nakamura,et al. Monte Carlo calculation of peak efficiencies of Ge(Li) and pure Ge detectors to voluminal sources and comparison with environmental radioactivity measurement , 1983 .