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Due to helical cylindrical time-evolution of electrons the mankind observation at a quantum mechanical scale depends on synchronization between observers and their surrounding cosmological medium by collective dynamics. From one side, the synchronization leads to linearization of an embedded 4D space-time reminiscent of the flat Minkowski space-time. | VNU Journal of Science Mathematics Physics Vol. 36 No. 3 2020 32-38 Original Article Quantum Statistics in Cylindrical Time-evolution of Electrons and Physical Reality Vo Van Thuan 1 2 Dao Dinh Duc 2 1 Institute of Theoretical and Applied Research Duy Tan University Hanoi Vietnam 2 Vietnam Atomic Energy Institute VINATOM 59 Ly Thuong Kiet Hoan Kiem Hanoi Vietnam 3 Faculy of Physics National University of Education 136 Xuan Thuy Cau Giay Hanoi Vietnam Received 28 November 2019 Accepted 12 April 2020 Abstract Due to helical cylindrical time-evolution of electrons the mankind observation at a quantum mechanical scale depends on synchronization between observers and their surrounding cosmological medium by collective dynamics. From one side the synchronization leads to linearization of an embedded 4D space-time reminiscent of the flat Minkowski space-time. From another side variation of the synchronization due to independent proper plane wave oscillations of each electron being constrained in a short time quantized period implies that there only statistical averaged physical quantities are observable which is in consistency with statistical indeterministic concept of traditional quantum mechanics. Keywords Quantum statistics time synchronization helical cylindrical evolution. 1. Introduction Being an old conceptual problem set up since the famous Einstein-Bohr debate at the 5th Solvay conference-1927 physical reality of quantum mechanics QM is never solved. The Copenhagen scholars did not accept the ontological physical reality without measurement process while Einstein insisted to fight for an objective physical reality of the individual microscopic substance. Nowadays nano-material technology is the widest application field of quantum physics even few people of the nano-community are dealing with quantum physical reality. However for going toward the frontiers of material sciences perhaps they would be interested in the ways to understand this puzzle. For ________ .