PHYSICS OF NUCLEAR RADIATIONS: CONCEPTS, TECHNIQUES AND APPLICATIONS

Subject ISBN Author Publisher Number of Pages Title Year Price
PHYSICS 9781138626904 Chary Rangacharyulu CRC India 383 PHYSICS OF NUCLEAR RADIATIONS: CONCEPTS, TECHNIQUES AND APPLICATIONS 2016 Rs. 1250/-
Author: Chary Rangacharyulu
Description: The book addresses the growth and decay of nuclear radiations, the stability of nuclei or particles against radioactive transformations, and the behavior of heavy charged particles, electrons, photons, and neutrons. The book also discusses methods for measuring energy and time spectroscopies before concluding with applications in agriculture, medicine, industry, and art.
Table of Content: * Physics Preliminaries * Conservation Laws * Basics of Relativity * Energetics of Photons * Energetics of Matter * Matter Waves * Questions * Endnotes * Radioactivity * Introduction * Natural Radioactivity * Radioactive Secular Equilibrium * Growth and Decay of Radioactivity * Age Determination—An Application * Questions * Endnotes * Nuclear Energetics * Introduction * Q-Value of Nuclear Processes * Beta Decay * Q-Values for Populating Excited Levels * Q-Values of Artificial Transmutation * Separation Energies * Questions * Endnotes * Interaction of Heavy Charged * Particles with Matter * Introduction * Bethe Stopping Power Formula * Range of Charged Particles * Bragg Peak * Range of a Particles * Range of* Particles in Mixtures and Compounds * Energy Loss of Electrons by Ionization * Endnotes * Interactions of Photons and Electrons in Matter * Introduction * Radiation Length * Photon Energy and Material Dependence of Attenuation Coefficients * Photon Energy Loss Mechanisms * Braggs Additive Rule * Electron Interactions * Bremsstrahlung * Radiation Length * Cherenkov Radiation * Transition Radiation * Questions * Endnotes* Interactions of Neutrons with Matter * Introduction * Nuclear Fission * Macroscopic Cross Section * Neutron Multiplication in Bulk Matter * Questions * Endnotes * Basics of Radiation Dosimetry * Introduction * Biological Considerations * Working Level Month * Specific Gamma Ray * Constant * Endnotes * Radiation Sources * Background * Production of Electromagnetic Radiation * Ion Beam Accelerators * Electrostatic* Accelerators * Alternating Current Accelerators * Linear Accelerators * Cyclotron * Microtron * Synchrotron * Collider Machines * Questions * Endnotes * Nuclear Radiation Detectors * Introduction * Cloud Chambers and Bubble Chambers * Gas Detectors * Multi-Wire Chambers * Semiconductor Solid State Detectors * Scintillation Counters * Cherenkov Detectors * Photosensors * Measurement Techniques * Intensity * Measurements * Energy Spectroscopy * Coincidence Measurements for Energy Spectroscopy * Timing Spectroscopy * Particle Identification by Time of Flight * Emission * Nuclear Techniques—A Few Applications * Introduction * Applications in Medicine * Radiation Therapy * Trace Element Analyses

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