B.S. Tomar
A.V.R. Reddy
Umashankari Kannan
A.K. Sharma
N. Ramamoorthy
H.J. Pant
S.B. Roy Modules
| Sl.No | Chapter Name | Assignments |
|---|---|---|
| 1 | Assignment 1 | Download |
| 2 | Assignment 2 | Download |
| 3 | Assignment 3 | Download |
| 4 | Assignment 4 | Download |
| 5 | Assignment 5 | Download |
| Sr.No | Chapter Name | Keywords |
|---|---|---|
| 1 | Lecture 1: Radioactivity, Nuclear decay and Nuclear Models | Nuclear stability, Nuclear density, Nuclear force, Binding energy, Mass defect |
| 2 | Lecture 2: Radioactivity, Nuclear decay and Nuclear Models | Liquid drop model, Mass parabola, Shell model, Nuclear spin |
| 3 | Lecture 3: Radioactivity, Nuclear decay and Nuclear Models | Radioactivity, Group displacement laws, Natural radioactivity, Artificial radioactivity, Radioactive decay law, Transient equilibrium, Secular equilibrium |
| 4 | Lecture 4: Radioactivity, Nuclear decay and Nuclear Models | Alpha decay, beta decay, gamma transitions, Internal conversion, Isomers |
| 5 | Lecture 5: Radioactivity, Nuclear decay and Nuclear Models | Interaction of radiation with matter, Ionizing radiations, Heavy charged particles, Fast electrons, Electromagnetic radiations, neutrons, Stopping Power, Range, Photoelectric absorption, Compton scattering, Pair production |
| 6 | Lecture 6: Radioactivity, Nuclear decay and Nuclear Models | Radiation detection, Gas filled detectors, Ionization chambers, Scintillation detectors, Semiconductor detectors |
| 7 | Lecture 7: Nuclear Reactions and Production of Radioisotopes | Nuclear reactions, Conservation laws, energetics, Q value, Threshold energy, Cross section |
| 8 | Lecture 8: Nuclear Reactions and Production of Radioisotopes | Types of nuclear reactions, elastic scattering, inelastic scattering, compound nucleus reactions, Direct reactions, Reaction cross section |
| 9 | Lecture 9: Nuclear Reactions and Production of Radioisotopes | Neutron induced reactions, Charged particle induced reactions, Excitation function, Heavy ion induced reactions, photon induced reactions |
| 10 | Lecture 10: Nuclear Reactions and Production of Radioisotopes | Neutron balance equation, Neutron leakage, Diffusion length, Buckling, Non leakage probability, Homogeneous reactor, Burn up |
| 11 | Lecture 11: Nuclear Reactions and Production of Radioisotopes | Nuclear reactors, Schematic of a reactor, Classification of reactor systems, Components of a nuclear reactor system, Nuclear reactors in India, Research reactors, Power reactors, Pressurised water reactor, PHWR, Boiling water reactor, fast reactor |
| 12 | Lecture 12: Nuclear Reactions and Production of Radioisotopes | Three stages of Indian nuclear power programme, Thorium utilisation, AHWR design objectives, Indian molten salt breeder reactor |
| 13 | Lecture 13: Reactor Physics & Nuclear Power | Nuclear fission, Mass distribution, Kinetic energy distribution, Extension of periodic table, Super heavy elements, Nuclear fusion |
| 14 | Lecture 14: Reactor Physics & Nuclear Power | Radioisotopes, radioisotope production, Irradiation in a nuclear reactor, Szilard Chalmers reactions, Enriched isotopes |
| 15 | Lecture 15: Reactor Physics & Nuclear Power | Charged particle induced reactions, Irradiation in accelerator, Cyclotron produced radioisotopes, medical cyclotron, Radioisotope generators |
| 16 | Lecture 16: Reactor Physics & Nuclear Power | Binding energy per nucleon, Fission and fusion, Critical energy for fission, Macroscopic cross section, mean free path, neuron interaction, prompt and delayed neutrons |
| 17 | Lecture 17: Reactor Physics & Nuclear Power | Fission product yield, Actinides, Fertile, Fissile, Temperature dependence of cross section, Neutron interactions, Neutron detection |
| 18 | Lecture 18: Reactor Physics & Nuclear Power | Basic reactor physics, Criticality, neutron multiplication, Four factor formula, neutron diffusion, Lethargy, Moderation |
| 19 | Lecture 19: Applications of Radioisotopes in Agriculture and Food Technology | Mutation breeding, Crop improvement, Spontaneous mutation, induced mutations, Radiation mutagenesis, DNA damage, Plant breeding |
| 20 | Lecture 20: Applications of Radioisotopes in Agriculture and Food Technology | Mendel’s laws, Law of dominance, law of segregation, Plant breeding terms, Seed mutation, Ionizing radiations |
| 21 | Lecture 21: Applications of Radioisotopes in Agriculture and Food Technology | Chemical effects of radiation, Dosimetry, Types of mutations, target plant materials, Standard protocol for radiation mutagenesis |
| 22 | Lecture 22: Applications of Radioisotopes in Agriculture and Food Technology | Food security, Irradiated food, Food spoilage, Insects, Microbes, Microorganisms, Food preservation, radiation technology, radiation processing |
| 23 | Lecture 23: Applications of Radioisotopes in Agriculture and Food Technology | Sources of radiation, Radioisotopes, Machine sources, Regulatory requirements, National regulations, KRUSHAK, Costs of food irradiation, Radiation processing facilities in India |
| 24 | Lecture 24: Applications of Radioisotopes in Healthcare | Radioisotopes, Healthcare, Production sources of RI, requirements of RI for healthcare, Radiotracer |
| 25 | Lecture 25: Applications of Radioisotopes in Healthcare | Imaging, Radiopharmaceuticals, Diagnostic, Imaging instrumentation, PET imaging, NM therapy |
| 26 | Lecture 26: Applications of Radioisotopes in Healthcare | Heart imaging, SPECT, Bone imaging, Oncology, 18FDG, Targeted tumor imaging, Imaging for therapy, Thyroid disorder, Palliative care |
| 27 | Lecture 27: Applications of Radioisotopes in Healthcare | Tumor imaging and therapy, 68Ga-DOTATATE, Theragnostic, 177Lu-PSMA, Cancer therapy, Radiation synovectomy, Blood irradiator, Radiation sterilization, Radioimmunoassay |
| 28 | Lecture 28: Applications of Radioisotopes in Healthcare | Radiation oncology, Radiotherapy, Teletherapy, Brachytherapy, External beam radiotherapy, Telecobalt, Linac systems, Bhabhatron, Proton therapy, Security of Radioactive sources |
| 29 | Lecture 29: Applications of Radioisotopes in Industry | Radioisotopes, Radiotracer, Industry, Leak detection, Flow rate measurements, Residence time distribution, Mixing time measurement, Wear rate measurements, Radioactive particle tracking |
| 30 | Lecture 30: Applications of Radioisotopes in Industry | Radiotracer, Hydrology, Sediment transport, Effluent dispersion, Oil field applications, Flow rate measurements, RTD measurements, Ground water, Seepage detection |
| 31 | Lecture 31: Applications of Radioisotopes in Industry | Isotope hydrology, Environmental isotope, tracer technique, Stable isotope ratios, Recharging of dry springs, Ground water contamination, Geothermal |
| 32 | Lecture 32: Applications of Radioisotopes in Industry | Sealed source, Industry, Radiometry, Densitometry, Tomography, Nucleonic gauges, Blockage detection, Gamma scanning, Level gauges, Thickness gauges |
| 33 | Lecture 33: Applications of Radioisotopes in Industry | Radiation processing, Gama radiation, Polymeric materials, Electron beam processing, Wire and cables, Hydrogels, Super adsorbent cotton, PTFE degradation, Diamonds, Precious stones, Treatment of wastewater, Radiation Hygienisation, Sewage sludge |
| 34 | Lecture 34: Nuclear Fuel Cycle | Nuclear fuel cycle, Nuclear fuel, Nuclear power, Fission reaction, Fissile and fertile isotopes, Uranium, Plutonium, Minor actinides, Indian nuclear power programme |
| 35 | Lecture 35: Nuclear Fuel Cycle | Front end, Back end, Elemental separation, Refining equipment, Pulsed columns, Mixer settlers, Slurry extractor, Zirconium technology, Reactor grade zirconium, Isotopic separation, Hydrogen isotopes, Chemical exchange, Thermal diffusion, Gaseous diffusion |
| 36 | Lecture 36: Nuclear Fuel Cycle | Uranium, Minerals, Deposits, U Prospecting, Mining, Open pit mining, In situ leaching, Underground mining, Acid leaching, Alkali leaching, Mineralogy, Comminution, Pre-concentration, froth floatation |
| 37 | Lecture 37: Nuclear Fuel Cycle | Uranium metal, Uranium metal plant, Powder production, Nuclear grade U, UO2, UF6, Hydro fluorination, Metallothermic reduction, Fuel fabrication, Uranium dioxide, MOX fuel, Metal fuel |
| 38 | Lecture 38: Nuclear Fuel Cycle | Reprocessing, Spent fuel, Closed fuel cycle, PUREX process, Partitioning, Fission products, India’s nuclear recycle programme, Thorex process |
| 39 | Lecture 39: Nuclear Fuel Cycle | Radioactive waste, Waste management, High level liquid waste, Intermediate level liquid waste, Low level liquid waste, Immobilization, Cs separation, Recovery of 90Sr, Partitioning, Minor actinides, P&T, Vitrification, Radioactive solid waste, Geological disposal |
| Sr.No | Book Name | Author Name |
|---|---|---|
| 1 | Essentials of Nuclear Chemistry | H.J. Arnikar (1982) |
| 2 | Nuclear and Radiochemistry | G. Friedlander, J. Kennedy, J.M. Miller and J.W. Macias, (1981) |
| 3 | Source book of Atomic Energy | S. Glasstone (1969) |
| 4 | Fundamentals of Radiochemistry | D.D. Sood, A.V.R. Reddy, N. Ramamoorthy Indian Association of Nuclear Chemists and Allied Scientists, 2004 |
| 5 | Radiation detection and measurement | G.F. Knoll, John Wiley & Sons, 4th edition (2010) |
| 6 | Fundamentals of Nuclear Pharmacy | G.B. Saha, Springer-Verlag, 1984 |
| 7 | Radionuclides in Therapy | R.P. Spencer, R.H. Sievers, A.M. Friedman, CRC Press, Boca Raton, 1987. |
| 8 | Industrial application of radioisotopes | G. Foldiak, Elsevier (1986) |
| 9 | Guide Book on Radioisotope Tracers in Industry | Tech. Rep. Series 316, IAEA, Vienna, 1990 |
| 10 | Environmental Isotopes in Hydrogeology | Ian Clarke and Peter Fritz, Lewis Publishers, NY, 1997 |
| 11 | Nuclear Reactor Engineering, Vol I & II | S. Glasstone & A. Sesonske CBS Publications, Delhi (1977) |
| 12 | Nuclear Energy Technology | R.A. Knief (1981) |