Hamiltonian properties of Madden-Julian Oscillation: waves and distributed chaos

Abstract

The Madden-Julian Oscillation (MJO) has been studied using its daily RMM1, RMM2 and VPM1, VPM2 principal components' indices. A spectral analysis of the raw indices indicates presence of a noise presumably contributed by the random high-frequency waves. A soft simple filter - 3 day running average, has been applied to filter out this high-frequency noise (the filter has been chosen in accordance with the observationally known properties of these waves). Power spectrum of the smoothed indices exhibits a stretched exponential decay E(f) -(f/f0)1/2 characteristic to the Hamiltonian distributed chaos with spontaneously broken time translational symmetry (with time depending Hamiltonian and adiabatic invariance of the action). An impact of the MJO's Hamiltonian distributed chaos on the Asian-Australian Monsoons at the intraseasonal time scales has been briefly discussed.