Rhodium self-powered detector for monitoring neutron fluence, energy production, and isotopic composition of fuel

@article{Sokolov1993RhodiumSD,
  title={Rhodium self-powered detector for monitoring neutron fluence, energy production, and isotopic composition of fuel},
  author={Andrei P. Sokolov and G. P. Pochivalin and Yu. M. Shipovskikh and Yu. V. Garusov and O. G. Chernikov and V. G. Shevchenko},
  journal={Atomic Energy},
  year={1993},
  volume={74},
  pages={365-367}
}

A review of the antimicrobial potential of precious metal derived nanoparticle constructs

This review will evaluate the current studies and explore the data to obtain a clear picture of the potential of these particles and the validity of the claims of drug resistant treatments with NMNPs.

Comparison of Thermal Neutron Flux Measured by $^{235}{\rm U}$ Fission Chamber and Rhodium Self-Powered Neutron Detector in MTR

Thermal neutron flux is one of the most important nuclear parameter to be measured online in material testing reactors (MTRs). In particular two types of sensors with different physical operating

Comparison of thermal neutron flux measured by uranium 235 fission chamber and rhodium self-powered neutron detector in MTR

Thermal neutron flux is one of the most important nuclear parameter to be measured on-line in Material Testing Reactors (MTRs). In particular two types of sensors with different physical operating