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Fast Neutrons and High-LET Particles in Cancer Therapy
Fast neutron therapy was introduced in London in 1970. The book gives an overview of the developments of the past 28 years, assesses the results of fast neutron treatment, and reviews the compiled clinical data worldwide. The authors describe the radiobiological profile of the neutron beams and evaluate the neutron RBE for secondary cancer induction, they introduce heavy-ion therapy, which combines high physical selectivity with the biological advantages of high-LET radiation for some tumor types, and finally they describe the very recent developments in Boron Neutron Capture Therapy (BNCT).
Status of the Dosimetry for the Radiation Effects Research Foundation (DS86)
The Committee on Dosimetry for the Radiation Effects Research Foundation (RERF) was set up more than a decade ago at the request of the U.S. Department of Energy. It was charged with monitoring work and experimental results related to the Dosimetry System 1986 (DS86) used by RERF to reconstruct the radiation doses to the survivors in Hiroshima and Nagasaki. At the time it was established, DS86 was believed to be the best available dosimetric system for RERF, but questions have persisted about some features, especially the estimates of neutrons resulting from the Hiroshima bomb. This book describes the current situation, the gamma-ray dosimetry, and such dosimetry issues as thermal-neutron di...
The Physics and Radiobiology of Fast Neutron Beams
Over fifty years have passed since the first patient was treated with fast neutrons, but this form of therapy is still a matter of bitter dispute. Neutron generators have been installed in many countries and now patients can be treated with equipment that is technically similar to modern megavoltage x-ray equipment. The Physics and Radiobiology of Fast Neutron Beams presents a full discussion of the physical and radiobiological factors governing the production and use of fast neutron beams for therapy. The book discusses vastly improved neutron generators, advances in the standardization of dosimetric methods, and the specification of radiation quality. In addition, it explores nuclear metho...
Fast Pulsed and Burst Reactors
Fast Pulsed and Burst Reactors: A Comprehensive Account of the Physics of both Single Burst and Repetitively Pulsed Reactors discusses the physical principles involved in the operation of fast burst and periodic pulsed reactors. The text first covers the concerns in fast burst reactors, such as the kinetics and the effects of thermal shock. Next, the book deals with periodic burst reactions, which include the neutronics theory, reactivity modulation, and fluctuations. The text also talks about the principles and problems of control and safety of periodic pulsed reactors. The book will be of great use to individuals involved in the operation of nuclear power plant, such as nuclear engineers. The text will also benefit scientists involved in nuclear research.
Physical Properties of Rocks
A symbiosis of a brief description of physical fundamentals of the rock properties (based on typical experimental results and relevant theories and models) with a guide for practical use of different theoretical concepts.
Chronic Radiation Hazards
Chronic Radiation Hazards: An Experimental Study with Fast Neutrons describes a large-scale experiment on the hazards to be expected from low and very low levels of chronic irradiation by fast neutrons. Fast neutrons may be an environmental hazard around nuclear reactors and some machines for accelerating particles, and it is therefore of practical as well as academic importance to get some idea of the likely ill-effects of chronic irradiation by fast neutrons. The book is organized into four parts. Part I describes the experimental design, including factors such choice of animal, choice of dose rate, observation of radiation effects, dose measurements, and energy of the neutrons. Part II deals with the measurement of fast neutron dose. Topics discussed include Interaction of neutrons with light elements; energy absorption due to fast neutrons; energy absorption due to gamma rays; and ionization-dose and ionization-flux relations for fast neutrons. Part III discusses the results of fast neutron irradiation while Part IV covers the relative biological efficiency of fast neutrons and gamma rays for chronic exposures.
Residual Injury Caused by Irradiation with Fast Neutrons
It is concluded that the RBE of the mice for residual radiation injury and the RBE for chronic radiation tolerance over short time intervals are the same as that for acute injury tolerance.
14 MeV Neutrons
Despite the often difficult and time-consuming effort of performing experiments with fast (14 MeV) neutrons, these neutrons can offer special insight into nucleus and other materials because of the absence of charge. 14 MeV Neutrons: Physics and Applications explores fast neutrons in basic science and applications to problems in medicine, the envir
