Hans C. Fogedby, Axel Svane
Published 2013-07-08, updated 2014-10-03Version 2
The energetics and efficiency of a linear molecular motor model proposed by Mogilner et al. (Phys. Lett. 237, 297 (1998)) is analyzed from an analytical point of view. The model which is based on protein friction with a track is described by coupled Langevin equations for the motion in combination with coupled master equations for the ATP hydrolysis. Here the energetics and efficiency of the motor is addressed using a many body scheme with focus on the efficiency at maximum power (EMP). It is found that the EMP is reduced from about 10 pct in a heuristic description of the motor to about 1 per mille when incorporating the full motor dynamics, owing to the strong dissipation associated with the motor action.
Comments: 23 pages, 6 figures, final version, appeared in J. Stat. Mech. P12001 (2013)
Efficiency of molecular motors at maximum power
Theoretical bound of the efficiency of learning
Near-equilibrium universality and bounds on efficiency in quasi-static regime with finite source and sink
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