NUS

Chjan C. Lim

Laboratory for Turbulence Research

The Energy-Enstrophy Model

Negative Temperature

This is an example of the system evolution with negative temperature. The system develops into a state of rolling hills of positive and negative spins.

System Parameters:

Size: 20 by 20 Layers: 1 Number of sweeps: 100,000 Sweeps between reports: 1,000
Beta: -1.0 Mu: 1.0 Maximum site change per flip: 0.2 Random number seed: time of day
Enstrophy unconstrained Site values unconstrained Circulation: 0 Initial enstrophy: 100
Final State Energy
The final state in the system's evolution Energy versus sweep
Final State Copied Enstrophy
Periodic copies of the final state Enstrophy versus sweep
Final State Contour Dirichlet Quotient
Contour map of the final state Dirichlet Quotient versus sweep

Web Master

Web page designed by Joseph Nebus ( nebusj@rpi.edu ).

Last updated 20 October 2001.

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