Temperature, ordering, and equilibrium with time-dependent confining forces | Zendy

J. P. Schiffer | Zendy; Michael Drewsen | Zendy; J. S. Hangst | Zendy; Liv Hornekær | Zendy

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Temperature, ordering, and equilibrium with time-dependent confining forces

Author(s) -

J. P. Schiffer,

Michael Drewsen,

J. S. Hangst,

Liv Hornekær

Publication year - 2000

Publication title -

proceedings of the national academy of sciences

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 5.011

H-Index - 771

eISSN - 1091-6490

pISSN - 0027-8424

DOI - 10.1073/pnas.190320397

Subject(s) - ion , aperiodic graph , degrees of freedom (physics and chemistry) , physics , kinetic energy , ion trap , atomic physics , quadratic growth , coupling (piping) , thermodynamic equilibrium , trap (plumbing) , chemistry , materials science , classical mechanics , thermodynamics , quantum mechanics , mathematical analysis , mathematics , combinatorics , metallurgy , meteorology

The concepts of temperature and equilibrium are not well defined in systems of particles with time-varying external forces. An example is a radio frequency ion trap, with the ions laser cooled into an ordered solid, characteristic of sub-mK temperatures, whereas the kinetic energies associated with the fast coherent motion in the trap are up to 7 orders of magnitude higher. Simulations with 1,000 ions reach equilibrium between the degrees of freedom when only aperiodic displacements (secular motion) are considered. The coupling of the periodic driven motion associated with the confinement to the nonperiodic random motion of the ions is very small at low temperatures and increases quadratically with temperature.

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