National Conference on AI & ML Driven Recent Advances in Condensed Matter and High Energy Physics

Investigating the variability of self-affine multiplicity for the events generated at relativistic energy for 84Kr-AgBr reactions

Not scheduled

20m

Department of Physics (Ewing Christian College)

Speaker

Ms Manisha Sharma (Department of Physics, Institute of Applied Sciences and Humanities, GLA University)

Description

The two-dimensional factorial moment approach and the idea of the Hurst
exponent (H) are used to study self-affine multiplicity fluctuation. It is suggested that the
anisotropy of phase space causes the regional differences in multiplicity at relativistic energy
multiparticle creation to be self-affine rather than self-similar. The best power law behaviors
are shown at H=0.7 for compound particles released in 84Kr-AgBr reactions at 1 A GeV.
Additionally, covered are the multifractality and non-thermal phase change that take place in
the production of the compound particles in 84Kr-AgBr interaction. There is no indication of a
non-thermal phase change in the synthesis of compound particles.