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File Edit Calculation Results Help & more Mesh Potential Initial state Detectors Calculation parameters

Mesh parameters

Default value of the potential

Objects

Del? circle   x0   y0   r           V0   V1   V2   Del? circle   x0   y0   r           V0   V1   V2

Click the checkbox before the object to remove this object Give object potential values in eV The potential for the circle is defined by:     V(r) = V0 + V1 r + V2 r2 The potential for the plane is defined by:     V(d) = V0 + V1 d + V2 d2,     where d is the (perpendicular) distance from the boundary line The potential for the rectangle is defined by:      V(x,y) = V0 + Vx x + Vy y + Vxx x2 + Vyy y2 + Vxy x y ,     where x and y are the (perpendicular)     distances from the x and y sides of the rectangle Give all length values in Angström Give the angles in Degree Please find the SAVE button at the bottom of the page!

(Please find the SAVE button at the bottom of the page!)

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Grayscale image of the 2D potential

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Add new objects

Add? circle   x0   y0   r           V0   V1   V2   Add? plane   x1   y1   x2   y2           V0   V1   V2   Add? rectangle   x0   y0   width   height   angle           V0   Vx   Vy   Vxx   Vyy   Vxy

Click the checkbox before the object type to add an object of this type Give object potential values in eV The potential for the circle is defined by:     V(r) = V0 + V1 r + V2 r2 The potential for the plane is defined by:     V(d) = V0 + V1 d + V2 d2,     where d is the (perpendicular) distance from the boundary line The potential for the rectangle is defined by:      V(x,y) = V0 + Vx x + Vy y + Vxx x2 + Vyy y2 + Vxy x y ,     where x and y are the (perpendicular)     distances from the x and y sides of the rectangle Give all length values in Angström Give the angles in Degree Please find the SAVE button at the bottom of the page!