Subjects
Applied Mathematics for Electrical Engineering - 3130908
Complex Variables and Partial Differential Equations - 3130005
Engineering Graphics and Design - 3110013
Basic Electronics - 3110016
Mathematics-II - 3110015
Basic Civil Engineering - 3110004
Physics Group - II - 3110018
Basic Electrical Engineering - 3110005
Basic Mechanical Engineering - 3110006
Programming for Problem Solving - 3110003
Physics Group - I - 3110011
Mathematics-I - 3110014
English - 3110002
Environmental Science - 3110007
Software Engineering - 2160701
Data Structure - 2130702
Database Management Systems - 2130703
Operating System - 2140702
Advanced Java - 2160707
Compiler Design - 2170701
Data Mining And Business Intelligence - 2170715
Information And Network Security - 2170709
Mobile Computing And Wireless Communication - 2170710
Theory Of Computation - 2160704
Semester
Semester - 1
Semester - 2
Semester - 3
Semester - 4
Semester - 5
Semester - 6
Semester - 7
Semester - 8
Physics Group - II (3110018)
Physics Group - II (3110018)
Syllabus of
Physics Group - II (3110018)
1
Electronic Materials
5 Questions
Free electron theory
(3 Question)
Density of states and energy band diagrams
Kronig-Penny model (to introduce origin of band gap), Energy bands in solids
E-k diagram, Direct and indirect bandgaps
(1 Question)
Types of electronic materials: metals, semiconductors, and insulators
Density of states, Occupation probability
Fermi level, Effective mass, Phonons.
(1 Question)
2
Semiconductors
4 Questions
Intrinsic and extrinsic semiconductors
(1 Question)
Dependence of Fermi level on carrier-concentration and temperature (equilibrium carrier statistics)
(1 Question)
Carrier generation and recombination, Carrier transport: diffusion and drift, p-n junction
(1 Question)
Metal-semiconductor junction (Ohmic and Schottky), Semiconductor materials of interest for optoelect
(1 Question)
3
Light-Semiconductor Interaction
5 Questions
Optical transitions in bulk semiconductors: absorption, spontaneous emission, and stimulated emissio
Joint density of states
(1 Question)
Density of states for photons
(1 Question)
Transition rates (Fermi's golden rule)
Optical loss and gain; Photovoltaic effect, Exciton
(2 Question)
Drude model
(1 Question)
4
Measurements
5 Questions
Four-point probe and Van Der Pauw measurements for carrier density
(3 Question)
Resistivity and hall mobility
Hot-point probe measurement, capacitance-voltage measurements
Parameter extraction from diode I-V characteristics, DLTS
band gap by UV-Vis spectroscopy, absorption/transmission
(2 Question)
5
Superconductivity
6 Questions
Introduction of Superconductivity
Properties of superconductor
(2 Question)
Effect of magnetic field
(1 Question)
Meissner effect
Pressure effect
Impurity effect
Isotopic mass effect
Penetration depth : Magnetic field
(1 Question)
Josephson's junction and its application Application of superconductors
(2 Question)
