38 citations to https://www.mathnet.ru/eng/phra7
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Vladimir Chernega, Olga Man'ko, Vladimir Man'ko, “Probability Representation of Quantum Mechanics Where System States Are Identified with Probability Distributions”, Quantum Reports, 2:1 (2020), 64
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Caio Fernando e Silva, Alex E. Bernardini, “Classical and statistical limits of the quantum singular oscillator”, Physica A: Statistical Mechanics and its Applications, 558 (2020), 124915
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Vladimir N. Chernega, Olga V. Man'ko, “Coherent States of Parametric Oscillators in the Probability Representation of Quantum Mechanics†”, J Russ Laser Res, 41:1 (2020), 11
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Peter Adam, Vladimir Andreev, Margarita Man'ko, Vladimir Man'ko, Matyas Mechler, “SU(2) Symmetry of Qubit States and Heisenberg–Weyl Symmetry of Systems with Continuous Variables in the Probability Representation of Quantum Mechanics”, Symmetry, 12:7 (2020), 1099
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Ya. A. Korennoy, V. I. Man'ko, “Conditions for Quantum and Classical Tomogram-Like Functions to Describe System States and to Retain Normalizations During Time Evolution”, Int J Theor Phys, 59:2 (2020), 574
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J Sperling, I A Walmsley, “Classical evolution in quantum systems”, Phys. Scr., 95:6 (2020), 065101
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Vladimir N. Chernega, Olga V. Man'ko, Vladimir I. Man'ko, “Probability Representation of Quantum States as a Renaissance of Hidden Variables— God Plays Coins”, J Russ Laser Res, 40:2 (2019), 107
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Vladimir N. Chernega, Vladimir I. Man'ko, “Spin Kinetic Equations in the Probability Representation of Quantum Mechanics”, J Russ Laser Res, 40:5 (2019), 496
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Vladimir N. Chernega, Olga V. Man'ko, Vladimir I. Man'ko, “Probability Representation of Photon States and Tomography†”, J Russ Laser Res, 40:6 (2019), 503
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Margarita A. Man'ko, Vladimir I. Man'ko, “Interference of Quantum States and Superposition Principle in Probability Representation of Quantum Mechanics”, Open Syst. Inf. Dyn., 26:03 (2019), 1950016