* RFE3View 3.0 - standard analysis (default)
* Field Precision LLC, Copyright 2010
* Variables
*   &PhiR, &PhiI, &ExR, &ExI, &EyR, &EyI, &EzR, &EzI, &EMag, &Q[N]
* Stored quantities
*   PhiReal  Real particle of the quasi-static potential (V)
*   PhiImag  Imaginary particle of the quasi-static potential (V)
*   EpsiR    Relative permitivity
*   Sigma    Electrical conductivity (S/m)
*   PDens    Time-averaged power density (J/m3)

HEADER
  ProgramName = RFE3View 3.0
  ManualName = rfe3.pdf
  WebSiteURL = http://www.fieldp.com
  DataSuffix = ROU
  About = RFE3View 3.0;Copyright 2010;Field Precision LLC;Albuquerque, NM USA
  NRecord = 5
  SliceDisplay = 1
  ScanDisplay = 1
  VectorDisplay = 1
  PlaneDisplay = 1
  SurfaceDisplay = 1
END

STOREDQUANT
  PhiR N
  PhiI N
  Epsi E
  Sigma E
  PDens E
END

REGIONQUANT
END

PROGPARAM
  $Epsi0 = 8.854187E-12
  $TwoPi = 6.283185
END

RUNPARAM
  $Freq = 0.0
END

REALTIMEPARAM
END

INTERPOLATION

* Potential (amplitude)
  PhiAmp = &PhiR 2 ^ &PhiI 2 ^ + @SQRT

* Electrical field (peak value)
  EMagAmp = &EMag

* Conductive current (peak value)
  JcMagAmp = &EMag &Q[4] *

* Displacement current (peak value)
  JdMagAmp = &EMag &Q[3] * $Epsi0 * $Freq * $TwoPi *

* Time-averaged power density
  PDensAvg = &Q[5]

* Material properties
  EpsiR = &Q[3]
  Sigma = &Q[4]

* Optional quantities
* Electrical field components
*  ExAmp = &ExR 2 ^ &ExI 2 ^ + @SQRT
*  EyAmp = &EyR 2 ^ &EyI 2 ^ + @SQRT
*  EzAmp = &EzR 2 ^ &EzI 2 ^ + @SQRT
* Conductive current components
*  JcxAmp = &ExR 2 ^ &ExI 2 ^ + @SQRT &Q[4] *
*  JcyAmp = &EyR 2 ^ &EyI 2 ^ + @SQRT &Q[4] *
*  JczAmp = &EzR 2 ^ &EzI 2 ^ + @SQRT &Q[4] *
* Displacement current components
*  JdxAmp = &ExR 2 ^ &ExI 2 ^ + @SQRT $Epsi0 * &Q[3] * $Freq * $TwoPi *
*  JdyAmp = &EyR 2 ^ &EyI 2 ^ + @SQRT $Epsi0 * &Q[3] * $Freq * $TwoPi *
*  JdzAmp = &EzR 2 ^ &EzI 2 ^ + @SQRT $Epsi0 * &Q[3] * $Freq * $TwoPi *
* Total current components
*  JtxAmp = &ExR &Q[4] * &ExI $Epsi0 * &Q[3] * $Freq * $TwoPi * - 2 ^ &ExI &Q[4] * &ExR $Epsi0 * &Q[3] * $Freq * $TwoPi * + 2 ^ + @SQRT
*  JtyAmp = &EyR &Q[4] * &EyI $Epsi0 * &Q[3] * $Freq * $TwoPi * - 2 ^ &EyI &Q[4] * &EyR $Epsi0 * &Q[3] * $Freq * $TwoPi * + 2 ^ + @SQRT
*  JtzAmp = &EzR &Q[4] * &EzI $Epsi0 * &Q[3] * $Freq * $TwoPi * - 2 ^ &EzI &Q[4] * &EzR $Epsi0 * &Q[3] * $Freq * $TwoPi * + 2 ^ + @SQRT
END

VECTOR
END

VOLUME
* Amplitude of the field energy (peak value)
  FEnergy = &EMag 2 ^ $Epsi0 * &Q[3] * 0.50 *
* Time-averaged power dissipation
  Power = &Q[5]
END

SURFACE
END

ENDFILE