NULL_EXI

/*

ExI: file name for the real

part of Ex

NULL_EXQ

/*

ExQ: file name for the imaginary part of Ex

NULL_EYI

/*

EyI: file name for the real

part of Ey

NULL_EYQ

/*

EyQ: file name for the imaginary part of Ey

NULL_EZI

/*

EzI: file name for the real

part of Ez

NULL_EZQ

/*

EzQ: file name for the imaginary part of Ez

NULL_HXI

/*

HxI: file name for the real

part of Hx

NULL_HXQ

/*

HxQ: file name for the imaginary part of Hx

NULL_HYI

/*

HyI: file name for the real

part of Hy

NULL_HYQ

/*

HyQ: file name for the imaginary part of Hy

NULL_HZI

/*

HzI: file name for the real

part of Hz

NULL_HZQ

 

 

 

/*

HzQ: file name for

the imaginary part

of Hz

NULL_INDEXN

 

 

 

/*

Index: file name for the real part of n

4.00000E-07

4.50000E-06

8

89

/*

xmin xmax (metres)

imin imax (indices)

 

4.00000E-07

4.50000E-06

8

89

/*

ymin ymax (metres)

jmin jmax (indices)

 

5.55000E-06

5.55000E-06

111

111

/*

zmin zmax (metres)

kmin kmax (indices)

 

MIDDLEFLUX

 

 

 

/* Subdomain name (no whitespace)

 

 

1

 

 

 

/*

Type: Computational partition (0) or comparison (1)(e.g. for modematch)

NULL_EXI

 

 

 

/*

ExI: file name for

the real

part of Ex

NULL_EXQ

 

 

 

/*

ExQ: file name for

the imaginary part of Ex

NULL_EYI

 

 

 

/*

EyI: file name for

the real

part of Ey

NULL_EYQ

 

 

 

/*

EyQ: file name for

the imaginary part of Ey

NULL_EZI

 

 

 

/*

EzI: file name for

the real

part of Ez

NULL_EZQ

 

 

 

/*

EzQ: file name for

the imaginary part of Ez

NULL_HXI

 

 

 

/*

HxI: file name for

the real

part of Hx

NULL_HXQ

 

 

 

/*

HxQ: file name for

the imaginary part of Hx

NULL_HYI

 

 

 

/*

HyI: file name for

the real

part of Hy

NULL_HYQ

 

 

 

/*

HyQ: file name for

the imaginary part of Hy

NULL_HZI

 

 

 

/*

HzI: file name for

the real

part of Hz

NULL_HZQ

 

 

 

/*

HzQ: file name for

the imaginary part of Hz

NULL_INDEXN

 

 

 

/*

Index: file name for the real part of n

4.00000E-07

4.50000E-06

8

89

/*

xmin xmax (metres)

imin imax (indices)

 

4.00000E-07

4.50000E-06

8

89

/*

ymin ymax (metres)

jmin jmax (indices)

 

3.00000E-06

3.00000E-06

60

60

/*

zmin zmax (metres)

kmin kmax (indices)

 

24

 

 

 

/* Number of orders

 

 

 

POSTPROC.1.NAME

 

 

/* Order name (poems variable name, no whitespace)

ARRAY

AMPLEX

 

 

/*

outputtype variablename

 

 

0.00000

4.90000E-06

 

 

/*

xmin xmax (metres)

[or xfocus (dummy)]

 

0.00000

4.90000E-06

 

 

/*

ymin ymax (metres)

[or yfocus (dummy)]

 

0.00000

6.00000E-06

 

 

/*

zmin zmax (metres)

[or yfocus (dummy)]

 

0.00000

0.00000

0.00000

 

/*

xNA, yNA, zNA (for

mode computation and far fields)

0.00000

0.00000

0.00000

 

/*

xfocus, yfocus, zfocus( for mode computation)

0.00000

0.00000

 

 

/*

ExI, ExQ (V/m) (for mode computation)

 

0.00000

0.00000

 

 

/*

EyI, EyQ (V/m) (for mode computation)

 

0.00000

0.00000

 

 

/*

EzI, EzQ (V/m) (for mode computation)

 

-4.90000E-06 -4.90000E-06 -6.00000E-06

/*

xInside yInside zInside (metres)--coordinates of a point ’inside’ the surface

POSTPROC.1.COMPARISONDOMAIN

 

 

/*

Domain for comparison (e.g. modematch)

 

POSTPROC.1.PARMSTRING

 

 

/*

Order-dependent parameter string (e.g. name of calculated mode function)

DIPOLE2I_AMPLEX

 

 

/*

Output file for calculated data

 

 

POSTPROC.2.NAME

 

 

/* Order name (poems variable name, no whitespace)

67

Page 71
Image 71
IBM Release 1.93 manual Middleflux, POSTPROC.1.NAME, Array Amplex, POSTPROC.1.PARMSTRING, DIPOLE2IAMPLEX, POSTPROC.2.NAME