Condensed Matter Physics, 2016, vol. 19, No. 3, 34001
DOI:10.5488/CMP.19.34001
arXiv:1611.00285
Title:
Linear non-equilibrium thermodynamics of human voluntary behavior: a canonical-dissipative Fokker-Planck equation approach involving potentials beyond the harmonic oscillator case
Author(s):
 
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J.M. Gordon
(CESPA, Department of Psychology, University of Connecticut, 406 Babbidge Road, Storrs, CT 06269, USA)
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S. Kim
(CESPA, Department of Psychology, University of Connecticut, 406 Babbidge Road, Storrs, CT 06269, USA)
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T.D. Frank
(CESPA, Department of Psychology, University of Connecticut, 406 Babbidge Road, Storrs, CT 06269, USA; Department of Physics, University of Connecticut, 2152 Hillside Road, Storrs, CT 06269, USA)
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A novel experimental paradigm and a novel modelling approach are presented to investigate oscillatory human motor performance by means of a key concept from condensed matter physics, namely, thermodynamic state variables. To this end, in the novel experimental paradigm participants performed pendulum swinging movements at self-selected oscillation frequencies in contrast to earlier studies in which pacing signals were used. Moreover, in the novel modelling approach, a canonical-dissipative limit cycle oscillator model was used with a conservative part that accounts for nonharmonic oscillator components in contrast to earlier studies in which only harmonic components were considered. Consistent with the Landau theory of magnetic phase transitions, we found that the oscillator model free energy decayed when participants performed oscillations further and further away from the Hopf bifurcation point of the canonical-dissipative limit cycle oscillator.
Key words:
physics of life, human behavior, canonical-dissipative systems, thermodynamic state variables
PACS:
05.40.Jc, 05.45.-a, 05.70.Ce, 05.70.Ln, 64.70.qd, 87.19.rs
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