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Quantum Algorithms
Quantum Mechanical Aspects of Cell Microtubules: Science Fiction or Realistic Possibility?
arXiv
Authors: Nick E. Mavromatos
Year
2010
Paper ID
28796
Status
Preprint
Abstract Read
~2 min
Abstract Words
188
Citations
N/A
Abstract
Recent experimental research with marine algae points towards quantum entanglement at ambient temperature, with correlations between essential biological units separated by distances as long as 20 Angströms. The associated decoherence times, due to environmental influences, are found to be of order 400 fs. This prompted some authors to connect such findings with the possibility of some kind of quantum computation taking place in these biological entities: within the decoherence time scales, the cell "quantum calculates" the optimal "path" along which energy and signal would be transported more efficiently. Prompted by these experimental results, in this talk I remind the audience of a related topic proposed several years ago in connection with the possible rôle of quantum mechanics and/or field theory on dissipation-free energy transfer in microtubules (MT), which constitute fundamental cell substructures. Quantum entanglement between tubulin dimers was argued to be possible, provided there exists sufficient isolation from other environmental cell effects. The model was based on certain ferroelectric aspects of MT. In the talk I review the model and the associated experimental tests so far and discuss future directions, especially in view of the algae photo-experiments.
Why This Paper Matters
- It adds a 2010 reference point for readers tracking recent quantum research.
- Recent experimental research with marine algae points towards quantum entanglement at ambient temperature, with correlations between essential biological units separated by...
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