. "Lokaj\u00ED\u010Dek, Milo\u0161 V." . "Einstein-Bohr controversy after 75 years, its actual solution and consequences"@en . "10.5772/34443" . . . "1"^^ . "Some Applications of Quantum Mechanics" . . . . "RIV/68378271:_____/12:00390282" . . . . "978-953-51-0059-1" . "16"^^ . "1"^^ . "Einstein-Bohr controversy after 75 years, its actual solution and consequences"@en . . "quantum mechanics; Bell's inequalities"@en . . "InTech" . "Boston" . "Einstein-Bohr controversy after 75 years, its actual solution and consequences" . . "Copenhagen quantum mechanics has required the existence of direct interaction between two objects at great distances, which was criticized by Einstein in 1935. However, the scientific community accepted the standpoint of Bohr that the given phenomenon may exist between microscopic objects. The given conclusion was then accepted practically by the whole physical community when the inequalities of Bell have been shown to be violated in corresponding experiments (in 1982). However, it has been shown recently by us that Bell\u2019s inequalities were derived under a very strong assumption and could not be valid in the given experiment. Consequently, only the Schroedinger equation itself may be admitted as phenomenological description of the whole (microscopic and macroscopic) reality." . "[8D85B41F6885]" . "Einstein-Bohr controversy after 75 years, its actual solution and consequences" . "P(LA08015), Z(AV0Z10100502)" . "424"^^ . . . . "Copenhagen quantum mechanics has required the existence of direct interaction between two objects at great distances, which was criticized by Einstein in 1935. However, the scientific community accepted the standpoint of Bohr that the given phenomenon may exist between microscopic objects. The given conclusion was then accepted practically by the whole physical community when the inequalities of Bell have been shown to be violated in corresponding experiments (in 1982). However, it has been shown recently by us that Bell\u2019s inequalities were derived under a very strong assumption and could not be valid in the given experiment. Consequently, only the Schroedinger equation itself may be admitted as phenomenological description of the whole (microscopic and macroscopic) reality."@en . . "133639" . . "RIV/68378271:_____/12:00390282!RIV13-AV0-68378271" .