squareV
{
	Inputfile demonstrates a multi-segment
	equipotential, which has a time-dependent sine wave on it.
}
Variables
{
  J = 13
  K = 13
  x1f = 0.1
  x2f = 0.02
}
Region 
{
Grid
{
	J = 13
	x1s = 0.0
	x1f = 0.1
	n1 = 1.0
	K = 13
	x2s = 0.0
	x2f = 0.02
	n2 = 1.0
}
Species
{
	name = electrons
	m = 9.11E-31
	q = -1.6e-19
}
Control
{
	dt = 1.0E-11
	ElectrostaticFlag = 1
	presidue = 1e-4
}
Conductor
{
	name = theEmitter
	Segment
	{
		j1 = 0
		k1 = 0
		j2 = 0
		k2 = 10
		normal = 1
	}
}
Conductor
{
	er = 1
	j1 = 0
	k1 = 10
	j2 = 0
	k2 = 13
	normal = 1
}
Conductor
{
	er = 1
	j1 = 0
	k1 = 13
	j2 = 13
	k2 = 13
	normal = -1
}
Conductor
{
	er = 1
	j1 = 13
	k1 = 13
	j2 = 13
	k2 = 0
	normal = -1
}
Equipotential
{
	name=funky equipotential
	Segment 
	{
		j1 = 3
		k1 = 3
		j2 = 3
		k2 = 10
		normal = 1
	}
	Segment 
	{
		j1 = 3
		k1 = 3
		j2 = 10
		k2 = 3
		normal = 1
	}
	Segment 
	{
		j1 = 10
		k1 = 10
		j2 = 10
		k2 = 3
		normal = 1
	}
	Segment 
	{
		j1 = 10
		k1 = 10
		j2 = 3
		k2 = 10
		normal = 1
	}
	C = 1
	A = 1
	frequency = 5e9
}
CylindricalAxis
{
	j1 = 0
	k1 = 0
	j2 = 13
	k2 = 0
	normal = 1
}
}