http://popups.lib.uliege.be/1373-5411/index.php?id=3902 Publications of Auteurs Sergey M. Korotaev fr 0 http://popups.lib.uliege.be/1373-5411/index.php?id=3901 We suggest a new method of quantum causal analysis. The causality is defined without invoking the time relation. It clarifies Cramer principle of weak causality, which admits time reversal in the entangled states and directly leads to the anticipation. The quantitative quantum measure of causality is the pseudoscalar velocity of irreversible information flow called the course of time. The smaller course of time modulus, the stronger causal connection. The causal parameters for the examples of three-qubit entangled states have been computed. The results have been compared with the degrees of mixedness and entanglement of the states. In the simplest cases the formal measure of quantum causality does not contradict its intuitive understanding. But even in slightly more complicated situations intuition may be a failure. Tue, 01 Oct 2024 11:52:46 +0200 Tue, 01 Oct 2024 11:52:54 +0200 http://popups.lib.uliege.be/1373-5411/index.php?id=3901 http://popups.lib.uliege.be/1373-5411/index.php?id=2996 Macroscopic nonlocality represents itself in correlation of different dissipative processes without any local carriers of interaction and with Bell-type inequality violation. Nonlocal correlation obeys weak causality principle. It involves the possibility of advanced transaction between the random dissipative processes. Wide series of long-term experiments on observation of correlation of insulated lab probe-processes with the large-scale source-processes have been performed. For the natural random source-processes: the solar, meteorological and geomagnetic activity the advanced reaction was reliable detected. Moreover advanced correlation proved to be stronger than retarded one. Due to high level of advanced correlation forecasting applications have a sense. This possibility was demonstrated by the forecast of the random component of geomagnetic activity. Wed, 04 Sep 2024 11:17:51 +0200 Thu, 10 Oct 2024 10:41:15 +0200 http://popups.lib.uliege.be/1373-5411/index.php?id=2996 http://popups.lib.uliege.be/1373-5411/index.php?id=2814 The macroscopic correlations effect appears as a correlation in any dissipative processes without the local carriers of interaction. In fluctuating processes there are both retarded and advanced correlations. The possibility of long-term forecasting of the random component of solar and geomagnetic activity on these advanced correlations has been investigated. The forecasting algorithm, employing advanced correlations, is suggested. Its efficiency has been proved on data of the long-term experiments in regime of the real forecast imitation with advancement up to four months. The accuracy of the obtained solar and geomagnetic forecasts is acceptable for all the practical purposes. Tue, 03 Sep 2024 14:56:50 +0200 Thu, 10 Oct 2024 10:40:41 +0200 http://popups.lib.uliege.be/1373-5411/index.php?id=2814