Induced radioactivity at particle accelerators: a short review

  title={Induced radioactivity at particle accelerators: a short review},
  author={Shakhboz Khasanovich Khasanov and Bo Yang and Youwu Su and Akmal Safarov and Yao Yang},
  journal={Radiation Detection Technology and Methods},


Proton induced radioactivity and neutron yields in tantalum and copper using Monte Carlo simulation
The quantification of induced activity in the accelerator structures and their decay profiles are required to be studied for planning the maintenance operations and the disposal procedures. This
The FLUKA code: Description and benchmarking
The physics model implemented inside the FLUKA code are briefly described, with emphasis on hadronic interactions. Examples of the capabilities of the code are presented including basic (thin target)
A Complementary Study of Photospallation Systematics
Recently measured photon-induced spallation yields have been compiled and analysed with the Rudstam five-parameter CDMD formula. The mass and energy dependence as well as the absolute values of the
Predicting Induced Radioactivity at High-Energy Electron Accelerators
Radioactive nuclides are produced at high-energy electron accelerators by different kinds of particle interactions with accelerator components and shielding structures. Radioactivity can also be
Radiation Shielding and Protection of the European Spallation Neutron Source (ESS)
The shielding and the radiation protection of high intensity spallation neutron sources as ESS has special features and importance compared to usual accelerator shielding and protection
Systematics of Spallation Yields
Available experimental spallation data have been used to construct a five-parameter formula describing the cross-section distribution for a wide range of experimental conditions with a fair degree of
Shielding of the Target Area of the Fragment Separator Super-FRS
Abstract The Super-FRS is designed as a versatile partially superconducting fragment separator for the planned international Facility for Antiprotons and Ion Research. It will be able to separate all
Radiation protection design for the Super-FRS and SIS100 at the international FAIR facility
The new accelerator SIS100 and the Super-FRS will be built at the international Facility for Antiprotons and Ion Research FAIR. The synchrotron SIS100 is a core part of the FAIR facility which serves