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LECTURE PLANUNIV. DEPARTMENT OF PHYSICS

NAME: Dr D K Giri DESIGNATION: Asstt. Prof.COURSE: M.Sc. - Ist sem SESSION: 2016-18PAPER NAME: Quantum Mechanics - I PAPER NO.: PHY C-02

Sl. No.

Topic/ Sub Topic Expected No. of Lectures

1. Harmonic oscillator by Schrodinger equation and by operator method,

4

2. Dirac delta function, bra and ket notation, 2

3. matrix representation of an operator, unitary transformation. 2

4. Schrodinger, Heisenberg and interaction pictures, their applications to linear harmonic oscillator

6

5. Angular momentum: commutation relations for angular operators, Eigen values and eigen vectors,

5

6. Pauli spin matrices and spin eigenvectors, 3

7. Addition therorm, , 3

8. Clebsch-Gordon coefficients 3

9. Angular momentum and rotation, 2

10. motion in centrally symmetric field, Hydrogen atom. 4

Total Lectures = 34

(Signature)


NAME: Dr D K Giri DESIGNATION:Asstt. Prof.COURSE: M.Sc. - IVth Sem SESSION: 2014-16PAPER NAME: Electronics Spl. Paper - I PAPER NO.: PHY E-13/401

Sl. No.


1. Memory devices: ROM and applications 2

2. RAM and applications, SRAM, DRAM 3

3. CMOS, NMOS 2

4. Non-volatile, magnetic, optical and ferroelectric memories, charge coupled devices.

3

5. Microwave devices: Velocity modulation, two cavity Klystrons 3

6. Reflex Klystrons 2

7. Magnetrons 2

8. Travelling wave tubes, wave modes. 3

Total Lectures = 20

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NAME: Dr D K GIRI DESIGNATION: Asstt. Prof.COURSE: M.Sc. - IIIrd sem SESSION: 2015-17PAPER NAME: Nuclear & Particle Physics PAPER NO.: PHY C-11S.N. Topics Expected Number

of Lectures1. Nuclear Interactions: n-p & p-p scattering at low energy- General

theory, 3

2. Scattering Cross-Section, Scattering length, Effective Range theory, 33. Meson theory of Nuclear Force, Yukawa interaction, 44. Charge independence and Charge symmetry of Nuclear forces, 25. Spin-dependence of Nuclear forces, Coherent and Non-coherent

Scattering, Isospin formalism.3

6. Nuclear Reactions: Type of Nuclear Reactions, Q values and Threshold energy,

3

7. Conservation laws, Direct and Compound Nuclear reaction Mechanisms, Compound Nucleus theory,

4

8. Resonance Scattering, BREIT-Wigner one level formula. 39. Nuclear Radiation detectors: Semi-conductor detectors, integrating

Solid-state devices3

10. Nuclear Radiation Counters: Scintillation Counters- Theory, characteristics, working and efficiency

2

Total Lectures = 30

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NAME: Dr A K Gupta DESIGNATION:Assoc.ProfCOURSE: M.Sc. - Ist Sem SESSION: 2016-18PAPER NAME: Classical Mechanics PAPER NO.: PHY F-01

Sl. No.


1. Lagrangian and Lagrange’s equation, 4

2. Hamiltonian and Hamilton’s equation and their application 6

3. Hamilton’s principal and characteristic function 4

4. Hamilton-Jacobi equation. 4

5. Canonical Transformation, generating functions, infinitesimal generator,

4

6. Poisson bracket, Poisson theorem, Angular momentum, 4

7. Principal of least action 4

Total Lectures = 30

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NAME: Dr A K Gupta DESIGNATION: Assoc. Prof.COURSE: M.Sc. - IVth Sem SESSION: 2014-16PAPER NAME: Electronics Spl. Paper - I PAPER NO.: PHY E-13/401

Sl. No.


1. Operational amplifiers: Differential amplifier-circuit configuration, dual input, balanced output differential amplifier,

2

2. DC and AC analysis, 2

3. Inverting and non-inverting inputs, CMRR, constant current, 2

4. Bias level translator. 1

5. Block diagram of an operational amplifier. Open loop configuration, Inverting and non-inverting amplifiers.

5

6. Op-amp with feedback. 2

7. Voltage follower, input bias current, input offset current, total output offset voltage,

3

8. adder, substractor, differentiator, and integrator. 3

Total Lectures = 20

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NAME: Dr A K Gupta DESIGNATION:Assoc.ProfCOURSE: M.Sc. - IIIrd sem SESSION: 2015-17PAPER NAME: Electronics-General PAPER NO.: PHY C-10

Sl. No.


1. Digital Systems: Basic logic gates and logic families, 5

2. Flip-flops (R-S type, T-type, D-type, J-K type, J-K edge triggered, J-K Master/Slave),

5

3. Shift register, ripple counter, Synchronous counter. 5

4. Electronic Devices: Semi Conductor Diodes, The continuity equation, 3

5. Application of the continuity equation for an abrupt pn-junction under forward and reverse bias, 4

6. Einstein equation, Varacter diode, Schottky diode, 3

7. Structure, working and derivation of the equation for I-V characteristics of Tunnel diode,

2

8. Transfer electron devices (Gunn Diode) and Avalanche transit time device (Read, Impatt diodes).

3

Total Lectures = 30

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NAME: P K Sharma DESIGNATION: COURSE: M.Sc. - IVth Sem SESSION: 2014-16PAPER NAME: Electronics Spl. Paper - I PAPER NO.: PHY E-13/401

Sl. No.


1. Communication electronics: Amplitude modulation, generation of AM waves, 2

2. demodulation of AM waves, 1

3. DSBSC modulation, generation of DSBSC waves, 2

4. coherent detection of DSBSC waves, 1

5. SSB modulation, generation and detection of SSB waves, 2

6. Vestigal sideband modulation, frequency division multiplexing (FDM). 2

Total Lectures = 10

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NAME: P K Sharma DESIGNATION:COURSE: M.Sc. - Ist sem SESSION: 2016-18PAPER NAME: Laser Physics PAPER NO.: PHY C-02

Sl. No.


1. Requisites for producing Laser light, 1

2. Q-switching, mode locking theory (homogeneous line), 3

3. rate equations (four level laser and quasi level laser), 4

4. Propagation of a laser pulse through a dispersive medium. 2

5. Basic principles and different laser’s: principle and working of CO2,

3

6. Laser and qualitative description of longitudinal and TE-laser systems,

3

7. Excimer laser, Dye laser, Semiconductor laser, 3

8. spin-flip Roman laser, plasma recombination laser. 2

9. Nonlinear interaction of light with matter: Laser induced multiphoton process and their application,

3

10. second-order harmonic generation. 2

Total Lectures = 26

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NAME: P K Sharma DESIGNATION:COURSE: M.Sc. - IIIrd SESSION: 2015-17PAPER NAME: Statistical Mechanics PAPER NO.: PHY A-09

Sl. No.


1. Foundation of Quantum Statistics : Foundation of Statistical Mechanics, Specification of States of a system, Contact between statistics and thermodynamics

5

2. Classical ideal gas, entropy of mixing and Gibb’s Paradox, Liouvilles Theorem (Quantum Treatment).

5

3. Quantum Mechanical Ensemble Theory: Density Matrix, 3

4. Statistical thermodynamics of gas in various [Micro Canonical, Canonical and Grand Canonical] .

4

5. Quantum Mechanical Ensembles, 3

6. Partition Functions, calculation of statistical quantities. 5

Total Lectures = 25

(Signature)


NAME: Dr Abhishek Kumar DESIGNATION: Asstt. Prof.COURSE: M.Sc. - IVth Sem SESSION: 2014-16PAPER NAME: Electronics Spl. Paper - II PAPER NO.: PHY E-14/402

Sl. No.


1. Microwave communications: advantages of microwave transmission, loss in free space,

2

2. atmospheric effects on propagation, ground reflection, fading sources. 3

3. Wave Guides: Modes of propagation in wave guides, 2

4. Rectangular wave guide, 2

5. Cylindrical wave guide and characteristics of propagation of electromagnetic waves.

2

6. Simple idea of optical-fibres 1

Total Lectures = 12

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NAME: Dr Abhishek Kumar DESIGNATION: Asstt. ProfCOURSE: M.Sc. - Ist Sem SESSION: 2016-18PAPER NAME: Mathematical Physics PAPER NO.: PHY F-01

Sl. No.


1. Special Functions: Legendre, Bessel, Hermite and Laguerre equation and physical applications,

5

2. generating function, recursion, Rodrigue’s formula 3

3. Integral Transform: Laplace transform, 1st and 2nd shifting theorems,

3

4. inverse LTs by partial fractions 2

5. , LT of derivative and integral of function, Solving differential equation using LT

3

6. Fourier integral and transforms, FT of delta function 4

Total Lectures = 20

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NAME: Dr Abhishek Kumar DESIGNATION: Asstt. Prof.COURSE: M.Sc. - IIIrd sem SESSION: 2015-17PAPER NAME: Nuclear & Particle Physics PAPER NO.: PHY C-11

Sl. No. Topic/ Sub Topic Expected No. of Lectures

1. Nuclear Models: Liquid Drop Model & Shell Model- Introduction, Theory and Applications,

5

2. Semi-empirical Mass Formula, Bohr-Wheeler theory of Fission. 53. Nuclear Decay: Beta Decay, Shape of the beta spectrum, Fermi’s theory

of Beta-decay, Parity violation and experimental verification.4

4. Elementary Particle Physics: Types of interaction between elementary particles, Hadrons and Leptons, Classification of Hadrons

3

5. Symmetry and Conservation Laws, elementary idea of CP and CPT invariance,

2

6. Lie algebra, SU(2), SU(3) multiplets, 3

7. Quark model, Gell-Mann Nishijima formula for Octal and Decaplet Hadrons, Charm, Bottom and Top Quarks

3

Total Lectures = 25

(Signature)


NAME: Dr Ajay Murari DESIGNATION: Assoc. Prof.COURSE: M.Sc. - Ist sem SESSION: 2016-18PAPER NAME: Electrodynamics PAPER NO.: PHY C-03

Sl. No.


1. Electromagnetic vector and scalar potentials, wave equation. 3

2. Lorentz condition. Non-uniqueness of electromagnetic potentials and concept of gauge

3

3. Electrodynamics of a moving charge and radiating systems: Lienard-Wiechert potentials and derivation of L-W potential of a moving point charge.

5

4. Electric and magnetic fields due to uniformly moving point charge and accelerated charge.

6

5. Radiation damping: Abraham Lorentz formula. 2

6. Relativistic electrodynamics: four vectors, four vectors of charge, current density and e. m potential. Covariance of continuity equation and Lorentz condition.

5

7. Transformation equation for the electromagnetic potentials, invariance of Maxwell’s filed equation. Maxwell’s equation in covariance four tensor form.

6

Total Lectures = 30

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NAME: Dr Ajay Murari DESIGNATION: Assoc. Prof.COURSE: M.Sc. - IVth Sem SESSION: 2014-16PAPER NAME: Electronics Spl. Paper - II PAPER NO.: PHY E-14/402

Sl. No.


1. Radar systems: Radar block diagram, Radar range equation, 5

2. minimum detectable signal, receiver noise, signal to noise ratio 3

3. Satellite communications: Introducing satellite orbits and geostationary satellites, Antenna look angles,

4

4. satellite classifications, spacing and frequency allocation, 6

5. satellite lik-models-UP link, Down link, cross link models, satellite link equations

5

Total Lectures = 23

(Signature)


NAME: Dr Ajay Murari DESIGNATION: Assoc. Prof.COURSE: M.Sc. - IIIrd SESSION: 2015-17PAPER NAME: Statistical Mechanics PAPER NO.: PHY A-09

Sl. No. Topic/ Sub Topic Expected No. of Lectures

1. Quantum Statistics: Statistics of indistinguishable particles [ BE and FD statistics]and its applications.

7

2. Properties of Ideal Bose and Fermi Gases, BE Condensation, 4

3. Super fluidity in Liquid He II, Low temperature behaviour of Bose and Fermi Gases.

4

4. Statistical mechanics of interacting systems: Cluster expansion of classical gas, 5

5. cluster expansion of quantum mechanical system. 5

6. Phase transition : ising model, mean-field theory in first approximation, ,

6

7. Bragg – William Approximation 2

8. Ising model in one, two and three dimension, 5

9. exact solution in one dimension. 2

Total Lectures = 35

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NAME: Dr P Mahto DESIGNATION: ProfCOURSE: M.Sc. - IIIrd sem SESSION: 2015-17PAPER NAME: Solid State Physics PAPER NO.: PHY C-10

Sl. No.


1. Introduction: Lattice vibrations 2

2. thermal properties of solids 2

3. Phonons of monatomic one dimensional lattice. 2

4. Free electron theory of Metals: Difficulties of the classical theory, 1

5. free electron model, electronic specific heat, 2

6. paramagnetism of free electrons 2

Total Lectures = 11

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NAME: Dr P Mahto DESIGNATION: Prof.COURSE: M.Sc. - IIIrd sem SESSION: 2015-17PAPER NAME: Nuclear & Particle Physics PAPER NO.: PHY C-11

Sl. No.


1. Nuclear Decay: Beta Decay, Shape of the beta spectrum, 22. Fermi’s theory of Beta-decay, Parity violation and experimental

verification.3

Total Lectures = 05

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NAME: Dr P Mahto DESIGNATION: Prof.COURSE: M.Sc. - IVth Sem SESSION: 2014-16PAPER NAME: Electronics Spl. Paper - I PAPER NO.: PHY E-13/401

1. Oscillators: Oscillators principles – types, frequency, stability response, 2

2. phase shift oscillator, 1

3. Wein bridge oscillator, , 2

4. LC tunable oscillators 1

5. Multivibrators – Monostable and Astable, 2

6. comparators, square wave and triangular wave generator. 2

Total Lectures = 10

(Signature)


NAME: Dr P Mahto DESIGNATION: ProfCOURSE: M.Sc. - Ist Sem SESSION: 2016-18PAPER NAME: Elements of Computational Techniques PAPER NO.: PHY F-01

Sl. No.


1. Root of functions 2

2. Interpolation and Extrapolation 2

3. Integration by trapezoid and Simpson’s rule 2

4. Solution of first order differential equation using Runge-Kutta method.

2

5. Finite difference methods. 2

Total Lectures = 10

(Signature)


NAME: Dr R N Sinha DESIGNATION: Assoc. Prof.COURSE: M.Sc. – Ist Sem SESSION: 2016-18PAPER NAME: Plasma Physics PAPER NO.: PHY C-03

Sl. No.


1. General Properties of plasma and introductory idea of different states of matter.

3

2. Kinetic theory of plasma:

Boltzmann’s equation 2Boltzmann-Vlasov Equation 2Derivation of moment equation 2

6. Plasma Characteristics:

Fundamental equation of MHD 3Debye Shielding and plasma parameter 2Expression of Alfen Velocity 2

10. Plasma confinement, Pinch effect and confinement of plasma. 4

11. Waves in cold plasma:

Wave propagation in magnetized cold plasma 3

Appleton-Hartee equation 3Atmospheric Whistler 2

Helicons and Faraday rotation. 2

Total Lectures = 30

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NAME: Dr R N Sinha DESIGNATION: Assoc. Prof.COURSE: M.Sc. - IVth Sem SESSION: 2014-16PAPER NAME: Electronics Spl. Paper - II PAPER NO.: PHY E-14/402

1. Microprocessors: Introduction to microprocessors, 3

2. micron rollers and microcomputers, 2

3. Architecture and internal operation of INTEL 8085, 4

4. instruction to OP codes, operands and mnemories. 2

5. Constructing machine language, code for instructions, 4

6. instructions execution timing diagram, 2

7. Instruction word size and addressing modes, 3

8. instruction set, stacks, subroutines and interrupts. 2

9. Machine assembly language programming. 3

Total Lectures = 25

(Signature)


NAME: Dr R N Sinha DESIGNATION:Assoc.ProfCOURSE: M.Sc. - IIIrd sem SESSION: 2015-17PAPER NAME: Solid State Physics PAPER NO.: PHY C-10

Sl. No.


1. Dielectrics and Ferroelectrics. Lorentz field equations, Dipole moment, Polarizability,

5

2. Classification of ferroelectric materials, anti-ferroelectricity, and piezoelectricity.

2

3. Landau’s theory of phase transitions , 3

4. Superconductivity: Occurrence of superconductivity, Destruction of superconductivity by magnetic fields

3

5. Meissner effect. Thermodynamics of superconducting transitions, 3

6. London equations, 3

Total Lectures = 19

(Signature)

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