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| - Self-affinity and phase transition study in target fragmentation of $\chem{{}^{28}Si}$- $\chem{AgBr}$ interactions at 14.5 $un{\acro{\textit{A}}GeV}$
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| - This paper reports the first evidence of non-thermal phase transition in the target fragmentation of $\chem{{}^{28}Si}$- $\chem{AgBr}$ interactions at 14.5 $un{\textit{A}GeV}$. Factorial moment analysis has been performed in two dimensions taking into consideration the anisotropicity of the phase space. A signal of non-thermal phase transition is obtained by carrying out the investigation at that partitioning of phase space where the anisotropic scaling (self-affinity) behavior of dynamical fluctuation is best revealed. A signal of multifractality is also observed from the knowledge of anomalous fractal dimension dq extracted from the intermittency exponent $\alpha_q$ at the anisotropic phase space scenario.
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