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Article overview
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QED-Cavity model of microtubules implies dissipationless energy transfer and biological quantum teleportation | N.E. Mavromatos
; A. Mershin
; D.V. Nanopoulos
; | Date: |
4 Apr 2002 | Journal: | Int. J. Modern Physics B 16 No 24, p3623-3642 (2002) | Subject: | Quantum Physics; Disordered Systems and Neural Networks; Biological Physics | quant-ph cond-mat.dis-nn physics.bio-ph | Affiliation: | King’s Coll. London), A. Mershin and D.V. Nanopoulos (Texas A and M Univ. | Abstract: | We refine a QED-cavity model of microtubules (MTs), proposed earlier by two of the authors (N.E.M. and D.V.N.), and suggest mechanisms for the formation of biomolecular mesoscopic coherent and/or entangled quantum states, which may avoid decoherence for times comparable to biological characteristic times. This refined model predicts dissipationless energy transfer along such "shielded" macromolecules at near room temperatures as well as quantum teleportation of states across MTs and perhaps neurons. | Source: | arXiv, quant-ph/0204021 | Services: | Forum | Review | PDF | Favorites |
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