A theoretical model using Fock space equates the lifetime of a unicellular organism to the inverse decay rate of an identity mode in a Markovian framework.
The future of quantum biology.Journal of the Royal Society Interface, 15(148): 20180640, 2018
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physics.bio-ph 2years
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Introduces a Lagrangian formalism treating genetic sequences as coordinates and mutation rates as velocities to derive a collective coherence coordinate, predicting broad variance in infection outcomes for organisms due to superposition.
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Fock-Space Formulation of the Lifetime of a Unicellular Organism
A theoretical model using Fock space equates the lifetime of a unicellular organism to the inverse decay rate of an identity mode in a Markovian framework.
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Classical Coherence Distinguishes Organisms from Colonies
Introduces a Lagrangian formalism treating genetic sequences as coordinates and mutation rates as velocities to derive a collective coherence coordinate, predicting broad variance in infection outcomes for organisms due to superposition.