Some aspects of spin-spin interaction

Author Affiliations

  • 1Midnapore College, W.B., India
  • 2Satmile High School, Satmile, 721452, W.B, India

Res. J. Physical Sci., Volume 5, Issue (6), Pages 11-13, August,4 (2017)


Mathematical formulations of the tensors for angular velocity, momentum, moment of inertia of a particle due to spin-spin interaction in a four dimensional space-time have been discussed. Mention has been made to the case of photon. Also, for the same type of interaction electric current density in a nucleus has been considered in mathematical form which can explain the form of strong field. From these studies trial has been made to establish a basic principle of formation of fundamental electric charges (positive or negative).


  1. Iyer C. and Prabhu G.M. (2007)., Composition of two Lorentz Boosts through spatial and space-time rotations., Journal of Physical and Natural Sciences, 1(2), 1.
  2. Weyl Hermann, Einstein Albert, Lorentz H.A. and Minkowski Hermann (1952)., The Principle of Relativity., Dover, 190.
  3. Kobychev V.V. and Porov S.B. (2005)., Constraints on the photon charge based on observations of Extragalactic Sources., Astronomy Letters, 31(3), 147-151.
  4. Sivaram C. (1999)., Constraints on the photon mass and charge and test of equivalence principle from GRB 990123., Bulletin of the Astronomical Society of India, 27, 627-630.
  5. Das M.C. and Misra R. (2012)., Relativistic Spin of an Arbitrary Body., Adv. Studies in Theoretical Physics, 6(3), 135-138.
  6. Rocard Y. (1957)., Thermodynamique., Masson, Paris, 250.
  7. Das M.C. and Misra R. (2012)., A Short Note on Alternating Strong Force., International Journal of Astronomy ans Astrophysics, 2, 74.
  8. Das M.C. and Misra R. (2012)., Three Lorentz Transformations Considering Two Rotations., Adv. Studies in Theoretical Physics, 6(3), 139-145.
  9. Ray S. (2007)., Lorentzís Electromagnetic Mass: A Clue for Unification., arXiv preprint physics, 11.
  10. Muralidhar K. (2011)., Classical Origin of Quantum Spin., Apeiron, 18(2), 146-160.
  11. Zu D. (2008)., The Classical Structure Model of single photon and classical point of view with regard to wave particle duality of photon., Progress in Electromagnetics Research Letters, 1, 109-118.
  12. Das M.C. and Misra R. (2012)., Fundamental Way of Charge Formation and relation between Gravitational Field and Electromagnetic Field., International Journal of Astronomy and Astrophysics, 2, 97-100.