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DEMO_XY / gallery 14: Electrostatic quadrupole. Mesh size: 401 x 401 nodes.

Running program

Windows:
DEMO_XY.exe 14

Linux:
./DEMO_XY.run 14

Problem definition

Problem drafted in books about electron optics (multiple symmetry lenses).

Numeric meshes

Each pixel represents one mesh point. 

colour white - vacuum
colour red   - casing     1 (U = +0.0 [V])
colour green - electrodes 2 (U = +1.0 [V])
colour blue  - electrodes 3 (U = -1.0 [V])

Visualization of mesh on picture.

Model parameters

mesh size:

number of rows     ==  401
number of columns  ==  401

x ==  -200.0 ... +200.0 [mm]
y ==  -200.0 ... +200.0 [mm]

number of iterations

>>> SUCCESS - solution V(x,y) has been found
after 27144 iterations


electrode type 1 (casing, red)
boundary ==  +1
boundary ==  +1
voltage  ==  +0.0   [V]
x_center ==  +0.0   [mm]
y_center ==  +0.0   [mm]
radius   >=  +190.0 [mm]

electrode type 2 (2 elements, green)
boundary ==  	 +2
voltage  == 	 +1.0  [V]
x_center == 	 +0.0  [mm]
y_center == +/-  50.0 [mm] (2 elements)
radius   <= 	 +20.0 [mm]

electrodes type 3 (2 elements, blue)
boundary ==     +3
voltage  ==     -1.0  [V]
x_center == +/- 50.0  [mm] (2 elements)
y_center ==     +0.0  [mm]
radius   <=     +20.0 [mm]

computation accuracy:
eps ==  1.0E-9 [V]

Computation results

Equipotential lines

Mapping of electrostatic potential [V] to colours

Colormap: grayscale

Colormap: grayscale inverted

Colormap: hot-to-cold

Colormap: hot-to-cold inverted

Colormap: jet

Colormap: jet inverted

Mapping of component x of electric force (E_x) [V/mm] to colours

Important: determinig of exact values of E near electrode surface is generally problematic. These maps have generally illustrative character.

Colormap: grayscale

Colormap: grayscale inverted

Colormap: hot-to-cold

Colormap: hot-to-cold inverted

Colormap: jet

Colormap: jet inverted

Mapping of component y of electric force (E_y) [V/mm] to colours

Important: determinig of exact values of E near electrode surface is generally problematic. These maps have generally illustrative character.

Colormap: grayscale

Colormap: grayscale inverted

Colormap: hot-to-cold

Colormap: hot-to-cold inverted

Colormap: jet

Colormap: jet inverted

Mapping of electric force (E) [V/mm] to colours

algorihm of computation:
E = sqrt(E_x*E_x + E_y*E_y)

Important: determinig of exact values of E near electrode surface is generally problematic. These maps have generally illustrative character.

Colormap: grayscale

Colormap: grayscale inverted

Colormap: hot-to-cold

Colormap: hot-to-cold inverted

Colormap: jet

Colormap: jet inverted

Mapping of square of electric force (E*E == E2) [V2/mm2] to colours

algorithm of computation:
E*E = E_x*E_x + E_y*E_y

Important: determinig of exact values of E near electrode surface is generally problematic. These maps have generally illustrative character.

Colormap: grayscale

Colormap: grayscale inverted

Colormap: hot-to-cold

Colormap: hot-to-cold inverted

Colormap: jet

Colormap: jet inverted

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