• Propagation of dust acoustic waves in a complex plasma with negative ions.
  B. Roy, S. Sarkar, Manoranjan Khan & M.R. Gupta.
  Physica Scripta 71, 644-647 (2005).
  
• Envelope ion thermal soliton in a pair-ion plasma.
  P.K. Shukla and Manoranjan Khan
  Phys. Plasma 12, 014504 (2005).
  
• Combined effect of secondary electron emission, plasma ion and electron
  number density variation due to dust charging and ionization recombination process on dust ion acoustic wave propagation. M.R. Gupta, S. Sarkar, B. Roy, A. Karmakar and Manoranjan Khan
  Physica Scripta, 71, 298 (2005)
  
• Instability of dust acoustic wave due to nonthermal ions in a charge varying dusty plasma.
  S. Ghosh, R. Bharuthram, Manoranjan Khan and M.R. Gupta.
  Phys. Plasma 11, 3602 (2004).
  
• Effect of secondary electron emission on the propagation of dust acoustic
  waves in dusty plasma. M.R. Gupta, S. Sarkar, B. Roy, A. Karmakar, Manoranjan Khan.
  Phys. Plasma 11 (5), 1850-1859 (2004).
  
• Atomic force microscopic studies on erythrocytes from an evolutionary perspective.
  K. Bhattacharyya, T. Guha, R. Bhar, V. Ganesan, Manoranjan Khan and R.L. Brahmachary.
  Journal of anatomical Record, Part A 297A, 671-675 (2004).
  
• AFM study of Biological samples: atomic resolution imaging of seeds.
  R. Bhar, T. Guha, V. Ganesan, A. Sen, T. Modak Dhar, K. Bhattacharyya, A.K. Ghosal, M. Khan and R.L. Brahmachary.
  EMSI Bulletin 4(1), 15-16, (2003)
  
• Design and Fabrication of the microprocessor based seed Testing Instrument.
  R. Bhar, C. Nagraja Murty, M.V. Lele, S. Ramgopal and Manoranjan Khan.
  J. Instrument Soc. India 34 (2), 95-106 (2003).
  
• Design, fabrication and characterization of a capacitively coupled R.F. discharge plasma system.
  Manoranjan Khan, Abhijit Bhattacharya.
  Indian J. Physics, 77B, 323-326, (2003).
  
• Dust Acoustic shock wave at high density.
  Samiran Ghosh, Susmita Sarkar, Manoranjan Khan, K. Avinash & M.R.Gupta.
  Phys. Plasma 10 (4), 977-983, 2003.
  
• Equation of state studies using a 10-Hz Nd:YAG laser oscillator.
  M. Shukla, A. Upadhyay, V.K. Sanecha, P. Khare, S. Bandopadhyay, V.N. Rai,
  C.P. Navathe, H.C. Pant, Manoranjan Khan and B.K. Godwal.
  Laser and Particle Beam 21 (4), 615-626 (2003).
  
• Collisionless damping of nonlinear dust ion acoustic wave due to dust charge fluctuation.
  Samiran Ghosh, T.K. Chaudhury, Susmita Sarkar, Manoranjan Khan and M.R. Gupta.
  Phys. Rev E, Vol. 65, 037401-4, 2002.
  
• Nonlinear acoustic mode at high dust density.
  Samiran Ghosh, S. Sarkar, M. Khan, M.R. Gupta & K. Avinash.
  Physics Letters A 298, 49-55 (2002)
  
• Ion acoustic shock waves in a collisional dusty plasma.
  Samiran Ghosh, Susmita Sarkar, Manoranjan Khan, M.R. Gupta.
  Physics Plasmas 9 (1), 378-381 (2002)
  
• Effect of nonadiabatic dust charge variation on nonlinear dust acoustic
  waves in presence of nonisothermal ions in a dusty plasma.
  Samiran Ghosh, Susmita Sarkar, Manoranjan Khan and M.R. Gupta.
  Phys. Plasma 9 (4), 1150-57 (2002).
  
• Evolution of induced axial magnetization in a two component magnetized plasma.
  Susmita Sarkar, P. Mukhopadhyay, Manoranjan Khan, J. Ortner, M. Steinberg,W. Ebeling.
  Phys. Rev E Vol. 64, 046401-7 (2001).
  
• Effect of grain charge fluctuation on dispersion relation of dust acoustic waves in
  unmagnetized dusty plasma.
  Susmita Sarkar, Manoranjan Khan, Samiran Ghosh, M.R. Gupta.
  Rev. Bull. Cal. Math. Soc. 8 (1&2) 1-10 (2000) (Published in 2001)
  
• 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).
  
• Small amplitude nonlinear dust ion acoustic waves in a magnetized dusty plasma with charge fluctuation.
  S. Ghosh, S. Sarkar, Manoranjan Khan, M.R. Gupta.
  Physica Scripta, 63, 395-403 (2001).
  
• 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, 29, 409-16 (2001)
  
• 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, 63, 046406/1-9 (2001).
  
• Small amplitude nonlinear dust acoustic wave propagation in Saturn's F,G and E rings.
  Samiran Ghosh, Tushar K. Chaudhuri, Susmita Sarkar,Manoranjan Khan, M.R. Gupta.
  Astrophys. & Space Sci. 278, 463-469 (2001).
  
• Dust ion acoustic shock waves in collisionless dusty plasma.
  S. Ghosh, S. Sarkar, Manoranjan Khan, M.R. Gupta.
  Phys. Lett. A 274 (3&4), 162-169 (2000).
  
• Nonlinear properties of small amplitude dust ion acoustic solitary wave.
  S. Ghosh, S. Sarkar, Manoranjan Khan, M.R. Gupta.
  Phys. Plasmas 7, 3594-3598 (2000).
  
• Effect of finite ion inertia and dust drift on small amplitude dust acoustic soliton.
  S. Ghosh, S. Sarkar, Manoranjan Khan, M.R. Gupta.
  Planetory and Space Science, 48, 609-614 (2000).
  
• Effect of grain charge fluctuation on dispersion relation of dust acoustic waves in unmagnetized dusty plasma.
  S. Sarkar, Manoranjan Khan, S. Ghosh and M.R. Gupta.
  Review Bull. Cal. Math. Soc., 8 (1&2), 1-10 (2000).
  
• Low frequency wave propagation in a cold magnetized dusty plasma.
  S. Ghosh, S. Sarkar and Manoranjan Khan.
  Planetary and Space Science, 47, 273-280 (1999).
  
• 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), 277-285 (1998).
  
• 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), 491-501 (1998).
  
• 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, 925-930 (1998).
  
• 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).
  
• 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).
  
• 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).
  
• Exponentially temporally growing magnetic moment field of stimulated Brillouin scattering in plasma.
  S. Sarkar, B. Chakraborty and M. Khan.
  Phys. Rev. E 50, 1458-1464 (1994).
  
• Magnetic moment field in the reflection region in cold magnetized plasma.
  C. Das, B. Bera, B. Chakraborty and Manoranjan Khan.
  J. Pl. Phys. 50 (part-II) 191-199 (1994).
  
• Specular reflection as a probe for diagnostics of laser produced plasma.
  T. Desai, H.C. Pant, M. Khan, S. Sarkar, B. Chakraborty.
  J. Pl. Phys. 51 (part-II) 211-219 (1994).
  
• Theory of Resonant and stimulated excitation of magnetic moment field in wave plasma interaction.
  B. Chakraborty, S. Sarkar, C. Das, B. Bera and Manoranjan Khan.
  Phys. Rev. E 47, 2736-2747 (1993).
  
• Radiative coupling instabilities in low dense plasma corona of laser irradiated solid targets.
  L.J. Dhareswar, P.A. Naik, S. Sarkar, Manoranjan Khan and B. Chakraborty.
  Phys. Fluids. B 4, 1635-1642 (1992).
  
• Axial magnetic field generation by pondermotive force in a laser produced.
  M.K. Srivastava, S.V. Lawande, Manoranjan Khan, C. Das, B. Chakraborty.
  Phys. Fluids B 4, 4086-4093 (1992).
  
• Faraday rotation of spontaneous magnetization in a laser produced plasma from solid target.
  Manoranjan Khan, S. Sarkar, B. Bhattacharyya, B. Chakraborty.
  J. Appl. Phys. 72, 2144-2148 (1992).
  
• Magnetic field generation from Alfven waves propagating along helical lines of forces.
  B. Chakraborty, Manoranjan Khan, C. Das, B. Bera.
  Int. J. Th. Phys. 31, 1295-1301 (1992).
  
• Some aspects of self generated magnetic field.
  M. Khan, C. Das, S. Sarkar, B. Bera, B. Chakraborty, H.C. Pant.
  Ind. J. Phys. 66B, 693-709 (1992).
  
• Lateral and axial magnetization due to inverse Faraday effect of interaction of waves in plasma.
  S. Sarkar, B. Bera, Manoranjan Khan, B. Chakraborty.
  Australian, J. Phys. 44, 59-66 (1991).
  
• Nonlinearly evolved magnetization in plasma.
  S. Sarkar, B. Chakraborty, Manoranjan Khan.
  Ind. Jour. Theoretical Physics 39, 33-40 (1991).
  
• Induced magnetization of Alfven waves.
  B. Chakraborty, M. Khan, S. Sarkar, V. Krishnan and B. Bhattacharyya.
  Anns. Phys. 201, 1-12 (1990).
  
• Scaling laws for self generated axial magnetic field in the laser produced plasma.
  B. Chakraborty, Manoranjan Khan, B. Bhattacharyya, S. Deb, H.C. Pant.
  Phys. Fluids 31, 1303-1305 (1998).
  
• Intense magnetization generated by standing waves in a plasma.
  B. Chakraborty, Manoranjan Khan, B. Bhattacharyya.
  J. Appl. Phys. 59, 1573-1576 (1986).
  
• Nonlinear evolved Faraday rotation due to strong radiation in a plasma.
  B. Chakraborty, Manoranjan Khan, B. Bhattacharyya.
  Phys. Rev. A, 28, 1047-1055 (1983).
  
• Nonlinear processional rotation of the polarization ellipse of a strong wave in a magnetized plasma.
  B. Chakraborty, Manoranjan Khan, B. Bhattacharyya.
  Plasma Phys. 24, 285-595 (1982).
  ,li>Impact of strong radiation on neutral atoms in a plasma background.
  B. Chakraborty, Manoranjan Khan, B. Bhattacharyya.
  Phys. Rev. A 23, 345-351 (1981).
  
• Impact of strong radiation on neutral atoms in a plasma background.
  B. Chakraborty, Manoranjan Khan, B. Bhattacharyya.
  Phys. Lett. 78 A, 454-457 (1980).
  
• Precessional rotation and other nonlinear effects due to standing waves and
  other two wave resonant interaction in a magnetized plasma.
  Manoranjan Khan, B. Chakraborty.
  J. Appl. Phys. 50, 7977-7983 (1979).
  
• Small amplitude wave propagation in two fluid plasma.
  Manoranjan Khan.
  Ind. J. Mech. Math. 17, 29-40 (1979).
  
• Small amplitude wave propagation in Stratified media.
  Manoranjan Khan and B. Chakraborty.
  Czech. J. Phys. B 29, 487-594 (1979).
  
• Density wave propagation through the Galactic Disk Bull.
  S.N. Paul and M.R. Khan.
  Astron. Inst. Czech. 28, 300-305 (1977).
  
• Conservation of longitudinal waves into electromagnetic radiation
  in a slowly varying plasma under WKB approximation.
  M.R. Khan and S.N. Paul.
  Applied Sci. Res. 33, 209-224 (1977).
  

B) Publications in proceedings :

• Ion acoustic shock waves in a dusty plasma.
  Manoranjan Khan, S. Ghosh, S. Sarkar, M.R. Gupta.
  Phys. Scripta T 116, 53-56 (2005).
  
• Dust ion acoustic shock waves in a collisionless dusty plasma.
  Manoranjan Khan, S. Ghosh, S. Sarkar, M.R. Gupta.
  Proceedings of the International Workshop on Theoretical Plasma Physics,
  ASICTP, Trieste, Italy, July 12-16 (2004)
  Ed: L. Stenflo & P.K. Shukla.
  
• Dust acoustic shock wave generation due to dust charge variation in a dusty plasma.
  M.R. Gupta, S. Sarkar, Manoranjan Khan and S. Ghosh.
  Pramana 61 (6), 1197-1201, (2003).
  
• Generation of dust acoustic shock waves due to non adiabatic dust charge variation.
  M.R. Gupta, S. Sarkar, Manoranjan Khan, S. Ghosh.
  Recent Trends in Astro and Plasma Physics in India.
  Ed. S. Chakraborty, S. Das, B. Basu, M. Khan, Centre for Space Physics (Kolkata), p. 119-127 (2003).
  
• Characterization of Nonlinear dust acoustic wave in planetary ring.
  M. Khan, S. Sarkar, T.K. Chaudhury, S. Ghosh, M.R. Gupta.
  Dusty Plasma in the New Millennium, Proc. of Third Int. Conference on the Phys. of Dusty Plasma, AIP NY (2002) pp. 337-340.
  
• Poloidal magnetic field generation in laser produced plasmas.
  Manoranjan Khan, S. Sarkar, S. Ghosh, R.B. Bhar,M.K. Srivastava, S.V. Lawande.
  Chinese Phys. Lett. Proc. APFA & APPTC : P 142-144 (2000).
  
• Coupling of waves and energy conversion in a slowly varying nonuniform dusty plasma.
  Manoranjan Khan, S. Sarkar, T.K. Chowdhury, A.M. Basu, S. Ghosh.
  Frontiers in dusty plasma: Ed. Y. Nakamura, T. Yokata and P.K. Shukla, Elsevier Sciences B.V. (Netherlands), P 66-72 (1999).
  
• 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.
  
• Magnetic field generation in laser plasma interaction.
  Manoranjan Khan, B. Chakraborty, B. Bhattacharyya, S. Sarkar,T.S. Shirsat and H.C. Pant.
  Proc. 10th European School in Plasma Phys. Tbilisi Georgia, Sept. 2-15 (1990),
  Ed. N.L. Tsintsadz, World Sc. 1991 (Singapore), P 531-547.
  
• Nonlinear procession and inverse Faraday effect in laser plasma interaction.
  Manoranjan Khan, B. Chakraborty.
  Proc. Int. Conf. Plasma Phys. New Delhi (1989), Vol. II.
  
• Nonlinear evolved Faraday rotation due to strong radiation in a plasma.
  B. Chakraborty, Manoranjan Khan, B. Bhattacharyya.
  Ind. Natn. Sci. Acad. 48A, 214-228 (1982).

• Monograph:
  Nonlinear processional rotation of strong EM waves in a plasma.
  B. Chakraborty, S.N. Paul, Manoranjan Khan, B. Bhattacharyya.
  Phys. Report 114, 181-317 (1984).
  
• Invited Article:
  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).
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