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Macroscopic quantum phenomena under conditions of deposition of DNA oligonucleotides into the edge channels of a silicon nanosandwich structure
Russian version
M.A. Fomin1, P.A. Golovin1, L.E. Klyachkin1, A.M. Malyarenko1, A.K. Emelyanov2, N.T. Bagraev1
1Ioffe Institute, St. Petersburg, Russia
2Konstantinov Petersburg Nuclear Physics Institute, National Research Center Kurchatov Institute, Gatchina, Russia
Email: fomin.makseem@gmail.com
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The role of DNA oligonucleotides in the quantum transport of carriers using the edge channels of a silicon nanosandwich structure has been studied. Macroscopic quantum effects were discovered within the framework of a quantum analogue of the Faraday electromagnetic induction effect, demonstrating the interconnection of the characteristics of quantum interference occurring in edge channels involving a biomolecule. In particular, the fractal nature of quantum interference was demonstrated in the dependences of the longitudinal and transverse conductance staircases of a nanosandwich structure under conditions of DNA oligonucleotide deposition on the surface of edge channels. Keywords: quantum interference, DNA identification, quantum Hall effect, Shubnikov-de Haas oscillations, quantum conductance staircase, electromagnetic Faraday induction.
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