BEGIN:VCALENDAR VERSION:2.0 PRODID:researchseminars.org CALSCALE:GREGORIAN X-WR-CALNAME:researchseminars.org BEGIN:VEVENT SUMMARY:Krzysztof Pomorski (Cracow University of Technology) DTSTART:20210122T150000Z DTEND:20210122T170000Z DTSTAMP:20260423T021007Z UID:QTech/11 DESCRIPTION:Title: E quivalence between classical epidemic model and non-dissipative and dissip ative quantum tight-binding model\nby Krzysztof Pomorski (Cracow Unive rsity of Technology) as part of QHS Lecture Series on Superconducting Phen omena and Electronics\n\n\nAbstract\nThe equivalence between classical epi demic model and nondissipative and dissipative quantum tight-binding model is derived. Classical epidemic model can reproduce the quantum entangleme nt emerging in the case of electrostatically coupled qubits described by v on-Neumann entropy both in non-dissipative and dissipative case. The obtai ned results shows that quantum mechanical phenomena might be almost entire ly simulated by classical statistical model. It includes the quantum like entanglement and superposition of states. Therefore coupled epidemic model s expressed by classical systems in terms of classical physics can be the base for possible incorporation of quantum technologies and in particular for quantum like computation and quantum like communication. The classical density matrix is derived and described by the equation of motion in term s of anticommutator. Existence of Rabi like oscillations is pointed in cla ssical epidemic model. Furthermore the existence of Aharonov-Bohm effect i n quantum systems can also be reproduced by the classical epidemic model. Every quantum system made from quantum dots and described by simplistic ti ght-binding model by use of position-based qubits can be effectively descr ibed by classical model with very specific structure of S matrix that has twice bigger size as it is the case of quantum matrix Hamiltonian. Obtaine d results partly question fundamental and unique character of quantum mech anics and are placing ontology of quantum mechanics much in the framework of classical statistical physics what can bring motivation for emergence o f other fundamental theories bringing suggestion that quantum mechanical i s only effective and phenomenological but not fundamental picture of reali ty.\n LOCATION:https://researchseminars.org/talk/QTech/11/ END:VEVENT END:VCALENDAR