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Faculty of Science Handbook, Session 2019/2020
X-ray fluorescence, Radiation interaction with matter (elastic and 3. Plasma Physics: An Introduction, by Richard Fitzpatrick (CRC
inelastic processes), Bremsstrahlung theory, Dosimetry Press, 2014)
Equivalent dose, Radon and thoron measurements, Biological effects, 4. Yu P. Raizer, Gas Discharge Physics (Springer, 1997 reprint)
somatic and genetic, Counting statistics, Radiation detectors
Radiation protection: Distance, Time, Dose, Applications of radiation.
SIF3009 PLASMA PHYSICS AND TECHNOLOGY(3 CREDITS)
Assessment Method:
Final Examination: 60% Fundamentals of plasma physics and introduction to plasma technology.
Continuous Assessment: 40% Methods of plasma generation in direct current, alternating current and
pulsed mode. Plasma diagnostics. Physics and technology of non-
Medium of Instruction: thermal plasmas and pulsed plasmas. Application of plasma technology:
English plasma processing, plasma-based lighting systems, plasma medicine,
and concept of plasma fusion.
Soft-skills: Assessment Method:
CS2, CTPS3, EM2 Final Examination: 60%
Continuous Assessment: 40%
References:
1. Basic Radiation Physics, E.B. Podgorsak, McGill University, Medium of Instruction:
Montreal, Canada (2006). English
2. Radiation, Ionization, and Detection in Nuclear Medicine, Tapan
Gupta, (Springer, 2013) Soft-skills:
3. Principles of Radiation Interaction in Matter and Detection, C. Leroy CS3, CTPS3, LL2, EM1
and P-G. Rancoita (World Scientific, 2004)
4. Fundamentals of Radiation Dosimetry and Radiological Physics, References:
Alex F Bielajew, The University of Michigan, USA (2005). 1. Introduction to plasma physics and controlled fusion. Volume 1,
5. E.B. Podgorsak. Radiation Physics for Medical Physicists, Plasma physics (Springer; 2nd edition, 2006)
(Springer, 2010) 2. Theory of Gas Discharge Plasma (Springer, 2013)
6. An Introduction to Radiation Protection, Alan Martin, Sam Harbison, 3. Principles of Plasma Diagnostics by I. H. Hutchinson (Cambridge
Karen Beach, Peter Cole. (Taylors & Francis, 2012). University Press; 2nd edition, 2005)
7. Radiation Detection and Measurement, G.F. Knoll, 3rd Ed. (Wiley, 4. High Temperature Plasmas (Wiley-VCH, 2011)
2000) 5. An Indispensable Truth: How Fusion Power Can Save the Planet
8. Measurement and Detection of Radiation, 4th Edition, Taylor & (Springer, 2011)
Francis (2015) 6. Michael Keidar and Isak Beilis, Plasma Engineering:
Applications from Aerospace to Bio and Nanotechnology
(Academic Press, 2013)
SIF2019 GAS DISCHARGE PHYSICS (3 CREDITS) 7. Alexander Piel, Plasma Physics: An Introduction to Laboratory,
Space, and Fusion Plasmas (Springer, 2014)
Basic principles and processes;
Kinetic theory of gases, Maxwell distribution, Concept of temperature
and pressure, Collision cross-section, Energy transferred due to SIF2020 ELECTRONICS II (3 CREDITS)
collision, Processes induced by electron collisions, Ion-neutral collision,
Collision involving metastable ion/atom, Processes due to electrode The synopsis of Field Effect Transistors (FET) and various FET (JFET &
effect MOSFET). Small-signal A.C. equivalent circuits for FET. gm A.C. small
Characteristics of Plasma; signal model. Input and output impedances calculation. Voltage and
Plasma potential, Debye shielding, Plasma sheath, Plasma frequency, current gains calculation. The frequency response of circuits. The
Electrical conductivity, Effect of magnetic field, Diffusion capacitive effects. The definition of dB unit.
Electrical Discharges in Gases; The -3dB frequencies. The Bode plot. The operational amplifier topics
I-V characteristics of gaseous discharge, Townsend theory of gaseous covering the basic building block circuits of operational amplifiers
discharge, Breakdown criterion, Paschen law, Breakdown potential, including the inverting and non-inverting amplifiers.
Glowing gaseous discharge, Arc discharge, Corona discharge, Pulsed Current to voltage and voltage to current converters. Subtracting and
discharge, The structure of glowing discharge, Cathode fall theory of summing circuits. Integrators and differentiators. Analysis and
normal glow discharge, Negative glow, Positive column and its theory, applications to comparators. Oscillators. Active filters. Analogue
Hot cathode discharge computers. The power amplifiers including the classification of A, B, AB,
Electric probe C and D. The A.C. load line. The push and pull concept. Cross-over
Thermodynamics of ionized gas; distortion. Efficiency calculations and comparison. Introduction to digital
Real gas effect, Equation of state, The Law of Mass Action, Departure electronics. Basic gates. Multivibrator circuits.
coefficient, Thermodynamic functions expressed in term of z, Saha
equation, Enthalpy equation Assessment Method:
Survey of plasma applications Final Examination: 60%
Continuous Assessment: 40%
Assessment Method:
Final Examination: 60% Medium of Instruction:
Continuous Assessment: 40% English
Medium of Instruction: Soft-skills:
English CS2, CTPS3, LL2
Soft-skills: References:
CS2, CTPS3, LL2 1. R. Boylestad & L. Nashelsky, Electronic Devices and Circuit
Theory, 11th ed. (Prentice Hall, 2012)
References: 2. T.L. Floyd & D. Buchla, Electronics Fundamentals: Circuits,
1. Theory of Gas Discharge Plasma (Springer, 2013) Devices, and Applications (Prentice Hall, 2013)
2. Fundamentals of Ionized Gases: Basic Topics in Plasma Physics 3. A.P. Malvino & D. Bates, Electronic Principles with simulation CD
(Wiley-VCH, 2011) (McGraw-Hill Education, 2015)
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