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Centres - CENTRE FOR PLASMA
STUDIES
List of Publications
1. Small amplitude nonlinear dust acoustic wave propagation in
Saturn's
F,G and E rings.
S. Ghosh, T.K. Chaudhuri, S. Sarkar, Manoranjan
Khan, M.R. Gupta.
Astrophysics & Space Science (2001)
in press.
2. A theory of Landau damping of ion acoustic waves in a dope plasma.
S. Mondal, S. Sarkar, A.M. Basu, Manoranjan
Khan, Rajarshi Bhattacharyya
and B. Chakraborty.
Phys. Plasmas. 8, 713-718 (2001).
3. Constrains on C-ring parameters far Tifan-1.0
Sandip K. Chakraborty and Avijit Bhattacharyya.
Monthly Notices of Royal Astronomical Society,
U.K.
4. Effect of nonadiabaticity of dust charge variation on dust acoustic
waves.
M.R. Gupta, S. Sarkar, S. Ghosh, M. Debnath,
Manoranjan Khan
Phys. Rev. E, (2001) in press.
5. Small amplitude nonlinear dust acoustic wave in a magnetized
dusty
plasma with charge fluctuation.
S. Ghosh, S. Sarkar, M. Khan, M.R. Gupta
IEEE, TPS, (2001) in press.
6. Small amplitude nonlinear dust ion acoustic waves in a magnetized
dusty plasma with charge variation.
S. Ghosh, S. Sarkar, Manoranjan Khan,
M.R. Gupta.
Physica Scripta, 63, 395-403 (2001).
7. Nonlinear properties of small amplitude dust ion acoustic solitary
wave.
S. Ghosh, S. Sarkar, Manoranjan Khan, M.R.
Gupta.
Phys. Plasmas, 7, 3594, (2000).
8. Dust ion acoustic shock wave in collisionless dusty plasma.
S. Ghosh, S. Sarkar, Manoranjan Khan, M.R.
Gupta.
Phys. Lett. A, 274 (3&4), 162 (2000).
9. Effect of finite ion inertia and dust drift on small amplitude
dust acoustic soliton.
S. Ghosh, S. Sarkar, Manoranjan Khan, M.R.
Gupta.
Planetary and Space Science, 48, 609 (2000).
10. Low frequency wave propagation in a cold magnetized dusty plasma.
S. Sarkar, S. Ghosh and
Manoranjan Khan
Planetary and Space Science,
47, 273 (1999).
11. Self generated magnetic field and Faraday rotation in laser
produced plasma.
Manoranjan Khan, C. Das,
B. Chakraborty, T. Desai, H.C. Pant,
M.K. Srivastava,
S.V. Lawande.
Physical Review E 58,
925, 1998.
12. Modification of stimulated Brillouin scattering due to magnetic
anisotropy
in laser plasma interaction.
Manoranjan Khan, S. Sarkar,
T. Desai, H.C. Pant.
Laser and Particle Beams
16 (3), 491 (1998).
13. Stabilization of SBS due to temporally exponentially growing
magnetization
in laser produced plasma.
Manoranjan Khan, S. Sarkar,
T. Desai, H.C. Pant.
Physica Scripta (1998)
Topical Issue. T 75, P. 273-275.
14. Generation of poloidal magnetic field in a noncollisional plasma
by an
elliptically polarized
Gaussian laser beam.
M.K. Srivastava, S.V.
Lawande, D. Dutta, Manoranjan Khan, S. Sarkar,
B. Chakraborty.
Laser and Particle Beams
16(2), 277-283 (1998).
15. Self generated magnetic field in laser produced plasma.
Manoranjan Khan.
Special Issue, Bulletin
of Indian Physics Association Vol. 29 No. 1&2, 71-77 (1998).
16. Electron-Molucule interaction on Electron distributions in
Argon Plasma
Produced by RF Discharges
and the Monte Carlo Analysis.
Abhijit Bhattacharya,
Ananda Mohan Basu.
Vidyasagar University
Journal of Physical Sciences, Vol. 4, 1998.
17. Interaction of Sub-Micron Sized Dust Particles with Planetary
Magnetosphere.
Abhijit Bhattacharya,
Ananda Mohan Basu.
Presented at 13th National
Symposium on Plasma Science & Technology, "Plasma-98",
Saurashtra University, Oct. 27-30, 1998.
18. Interaction of Sub-Micron Sized Dust grains with Jovian magnetosphere.
Abhijit Bhattacharya,
Ananda Mohan Basu.
Presented for International
Seminar at Calcutta Mathematical Society, CALMA-98,
Calcutta, Dec. 17-19, 1998.
19. Principal of Plasma mechanics, New Age.
B. Chakraborty.
New Delhi (thoroughly
revised third edition), 1997.
20. Dynamics of plasma containing a population of negatively charged
heavy vortex elements.
Chandra Das, Rajarshi
Bhattacharyya and B. Chakraborty.
Physics Plasma, 4, 1484-1485
(1997).
21. Elliptically polarized wave induced growth of instability at
an obliquely
developed inhomogeneity.
Rajarshi Bhattacharyya,
Soumen Mondal, Debjani Dutta and
B. Chakraborty.
Phys. Rev. E55, 4602-4607
(1997).
22. Plasma Physics Activity in India in the Early Years.
B. Chakraborty.
Physics News 28, 12-14 (1997).
23. Electron Capture by Protons from the outer shell of Na and
K.
Bablu Bhattacharyya and
Ananda Mohan Basu.
Indian Journal of Physics,
70(5), 385-390 (1996).
24. Features of instabilities in a plasma for an obliquely incident
wave.
Rajarshi Bhattacharyya,
S. Mondal, Debjani Dutta, B. Chakraborty.
Proc. Seminars Recent
Trends in Applicable Mathematics, UGC-USA
Programme (phase-II),
Dept. of Mathematics, Jadavpur University 5,
108-120 (1996).
25. Theory of magnetic moment field generation in wave affected
plasmas.
B. Chakraborty.
Proc. Seminars Recent
Trends in Applicable Mathematics, UGC-USA
programme (phase-II),
Dept. of Mathematics, Jadavpur University 5,
98-107 (1996).
26. Problems of Electrodynamics for small rotation about a fixed
axis and for
other acceleration.
B. Chakraborty and Debjani
Dutta.
Review Bull Cal. Math.
Soc. 4, 73-96 (1996).
27. Magnetic material like behaviour of wave affected plasma.
Rajarshi Bhattacharyya,
C. Das, S.N. Paul and B. Chakraborty.
In Recent Advance in Plasma
Science & Technology, ed. R.R. Singh,
S.B. Roi and D. Narayan,
Applied publisher, New Delhi, P. 312-315.
28. Magnetic moment generation in cold collisionless plasma by
inhomogeneous laser beam.
Debjani Dutta, M.K. Srivastava,
S. Sarkar, M. Khan and B. Chakraborty.
In Recent Advance in Plasma
Science & Technology, ed. R.R. Singh, S.B. Roi and
D. Narayan, Applied publisher, New Delhi, P. 214-219 (1996).
29. Plasma confinement and other effects of magnetic moment from
standing waves in a Vlasov
Plasma.
S. Sarkar, D. Dutta, B.
Chakraborty, M. Khan
IL Nuovo Cemento 18D,
75-88 (1996).
30. Magnetization and other characteristics of exact relativistic
dispersion of circularly
polarized radiation in a magnetized plasma.
S. Sarkar, B. Chakraborty,
Manoranjan Khan, D. Dutta.
Phys. Plasmas 3(2), 468-472
(1996).
31. Generation of poloidal magnetic field in a hot collisional
plasma by
inverse Faraday effect.
M.K. Srivastava, S.V.
Lawande, D. Dutta, S. Sarkar, Manoranjan Khan,
B. Chakraborty.
Phys. Plasmas 3(5), 1495-1501
(1996).
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