Teaching Staff

Department of Physics

Dr. Kausik Pal
Designation Associate Professor
Qualification M.Sc., Post M.Sc.,Ph.D
Contact (033)2652 -5185 (Dept.)
E-mail id kausik@seramporecollege.ac.in
kausik.sinp@gmail.com

Area of Specialisation :

High Energy Physics

Research Interest :

  1. High Energy Nuclear & Particle Physics.

Selected Publications :

  1. Spin dependent Fermi liquid parameters and properties of polarized quark matter. K.Pal, S.Biswas and A.K.Dutt-Mazumder. Phys. Rev. C 79, 015205, (2009).
  2. Ground state energy of spin polarized quark matter with correlation.K.Pal, S.Biswas and A.K.Dutt-Mazumder. Phys. Rev. C 80, 024903, (2009).
  3. Spin susceptibility of degenerate quark matter. K.Pal and A.K.Dutt-Mazumder. Phys. Rev. C 80, 054911, (2009).
  4. Symmetric and anti-symmetric Landau parameters and magnetic properties of dense quark matter. K.Pal and A.K.Dutt-Mazumder. Phys. Rev. C 81, 054906, (2010).
  5. Pionic contribution to relativistic Fermi Liquid parameters. K.Pal . Can. J. Phys. 88, 585, (2010).
  6. Fermi liquid description of relativistic high density matter.K.Pal and A.K.Dutt-Mazumder. Ind. J. Phys. 85, 831, (2011).
  7. Non-Fermi liquid corrections to the neutrino mean free path in dense quark matter.K.Pal and A.K.Dutt-Mazumder. Phys. Rev. D 84, 034004, (2011).
  8. Role of magnetic interaction in dense plasma. S.Sarkar, K.Pal and A.K.Dutt-Mazumder. Review Article, Advances in High Energy Physics, 530895, (2013).
  9. “Correlation corrections to the thermodynamic properties of spin asymmetric QGP matter.” K.Pal. Eur.Phys.J.Plus 130, 23, (2015).
  10. “Possible ferromagnetism of dense quark matter.” K.Pal,  Can.J.Phys. 96, 1163, (2018).
  11. “Incompressibility and sound velocity of spin asymmetric quark matter within RFLT approach.” K.Pal, International Journal of Scientific & Technology Research 8, Issue 10, 2234, (2019).
  12. “Energy density and susceptibility of warm and dense quark matter.” K.Pal, Physics Education 36, No. 2, Article 8, (2020).
  13. “Nuclear saturation energy in effective chiral model within Fermi liquid theory approach.” K.Pal,  Can.J.Phys. 98, 1133, (2020).
  14. “Towards understanding the properties of Quark Gluon Plasma using a MIT bag model.” K.Pal, Physics Education 37, No. 3, Article 2, (2021).

For the complete list of my research publications, see below :

  1.  Inspire
  2.  Researchgate
  3.  Orcid