Experimental study of advanced nonlocal correlations of the process of solar activity

Abstract

Macroscopic nonlocality is based on quantum nonlocality and is manifested as a correlation of various dissipation processes without local interaction carriers. The nonlocal correlations obey the principle of weak causality that admits an advanced correlation of random dissipation processes. The correlation of spontaneous variations of isolated laboratory reference processes with the process of solar activity is studied experimentally. As a result, an advanced correlation is reliably detected. The feasibility of application of the macroscopic nonlocality effect to long-term forecast of background solar activity is demonstrated.