The temporal fluctuations of produced hadron density in heavy ion collisions, modelled by 2D Ising model at temperatures $T_c$ and below, are studied through a recently developed wavelet based fluctuation analysis method. At $T_c$, long-range correlated multifractal behavior, matching with the recently observed Hurst exponent $H\simeq 1$, is found. Below $T_c$ uncorrelated monofractal behavior is seen. The correlation behavior compares well with the results obtained from continuous wavelet based average wavelet co-efficient method, as well as with Fourier power spectral analysis
Journal PaperIn this paper, we develop a new multiscale modeling framework for characterizing positi...
Many models and real complex systems possess critical thresholds at which the systems shift dramatic...
We study the multifractal properties of water level with a high-frequency and massive time series us...
We study and compare the self-similar properties of the fluctuations, as extracted through wavelet c...
A continuous wavelet analysis is performed for pattern recognition of charged particle emission data...
We have studied the multifractality of pion emission process in 16O-AgBr interactions at 2.1 AGeV a...
NA44 uses a 512 channel Si pad array covering 1.5 < eta < 3.3 to study charged hadron production in ...
Based on the Multifractal Detrended Fluctuation Analysis (MFDFA) and on the Wavelet Transform Modulu...
Wavelet analysis is proposed as a new tool for studying the large·scale structure formation of the u...
NA44 uses a 512-channel Si pad array covering 1.5<eta<3.3 to study charged hadron production in 158A...
International audienceMultifractal analysis, notably with its recent wavelet-leader based formulatio...
We propose phase-like characteristics in the broad-band process and introduce a novel wavelet-based ...
Conference PaperIn this paper, we develop a new multiscale modeling framework for characterizing pos...
Conference PaperIn this paper, we develop a new multiscale modeling framework for characterizing pos...
We have studied the charged particle density fluctuations in 16 O+Ag(Br) and 32 S+Ag(Br) interaction...
Journal PaperIn this paper, we develop a new multiscale modeling framework for characterizing positi...
Many models and real complex systems possess critical thresholds at which the systems shift dramatic...
We study the multifractal properties of water level with a high-frequency and massive time series us...
We study and compare the self-similar properties of the fluctuations, as extracted through wavelet c...
A continuous wavelet analysis is performed for pattern recognition of charged particle emission data...
We have studied the multifractality of pion emission process in 16O-AgBr interactions at 2.1 AGeV a...
NA44 uses a 512 channel Si pad array covering 1.5 < eta < 3.3 to study charged hadron production in ...
Based on the Multifractal Detrended Fluctuation Analysis (MFDFA) and on the Wavelet Transform Modulu...
Wavelet analysis is proposed as a new tool for studying the large·scale structure formation of the u...
NA44 uses a 512-channel Si pad array covering 1.5<eta<3.3 to study charged hadron production in 158A...
International audienceMultifractal analysis, notably with its recent wavelet-leader based formulatio...
We propose phase-like characteristics in the broad-band process and introduce a novel wavelet-based ...
Conference PaperIn this paper, we develop a new multiscale modeling framework for characterizing pos...
Conference PaperIn this paper, we develop a new multiscale modeling framework for characterizing pos...
We have studied the charged particle density fluctuations in 16 O+Ag(Br) and 32 S+Ag(Br) interaction...
Journal PaperIn this paper, we develop a new multiscale modeling framework for characterizing positi...
Many models and real complex systems possess critical thresholds at which the systems shift dramatic...
We study the multifractal properties of water level with a high-frequency and massive time series us...