TY - JOUR
A2 - Hendi, Seyed H.
AU - Deriglazov, Alexei A.
AU - Ramírez, Walberto Guzmán
PY - 2016
DA - 2016/10/11
TI - Ultrarelativistic Spinning Particle and a Rotating Body in External Fields
SP - 1376016
VL - 2016
AB - We use the vector model of spinning particle to analyze the influence of spin-field coupling on the particle’s trajectory in ultrarelativistic regime. The Lagrangian with minimal spin-gravity interaction yields the equations equivalent to the Mathisson-Papapetrou-Tulczyjew-Dixon (MPTD) equations of a rotating body. We show that they have unsatisfactory behavior in the ultrarelativistic limit. In particular, three-dimensional acceleration of the particle becomes infinite in the limit. Therefore, we examine the nonminimal interaction through the gravimagnetic moment κ and show that the theory with κ=1 is free of the problems detected in MPTD equations. Hence, the nonminimally interacting theory seems a more promising candidate for description of a relativistic rotating body in general relativity. Vector model in an arbitrary electromagnetic field leads to generalized Frenkel and BMT equations. If we use the usual special-relativity notions for time and distance, the maximum speed of the particle with anomalous magnetic moment in an electromagnetic field is different from the speed of light. This can be corrected assuming that the three-dimensional geometry should be defined with respect to an effective metric induced by spin-field interaction.
SN - 1687-7357
UR - https://doi.org/10.1155/2016/1376016
DO - 10.1155/2016/1376016
JF - Advances in High Energy Physics
PB - Hindawi Publishing Corporation
KW -
ER -