The following input will simulate a 1:1 array of GRIN rods (see Figure 2): UbEK2&q/8
+pY--5t
mv{bX|.
w(oi6kg
RDM;LEN z=6zc-$y 9
TIT 1:1 GRIN ARRAY ".7\>8A#a
NAO 0.1 +GvPJI
TEL ! Telecentric 045_0+r"@
DIM M ^N&@7s
WL 633 DS|q(O=7~t
YOB -5 5 0 -10 10 '\% Kd+k
PRV ! GRIN material (SELFOC form) JFu9_=%+
PWL 633 isU4D
'SLSPRV' 1.5 7V2xg h!W
SEL 1 ! Grin step size rHp2I6.0a
SEL C1 .076 ! First coeff. of SELFOC formula )?;+<,
END 'Bwv-J
So 0 10.222 K"jS,a?s 6
RED -1 ~7>D>!!
S 0 0 M.9w_bW]#D
S 0.0 60.0 'SLSPRV' ! GRIN rod (array channels) Yy'CBIq#f
STOP (>SucUU
CIR 1.25 ! Aperture of each channel P?hB`5X
! (applies to entire length )lH`a
! of GRIN rod) Vr:`?V9Q2(
! Array definition b ;>?m
9/h[(qvT
! ARR x_spacing y_spacing y_offset max_x max_y !;Vqs/E
ARR 2.5 2.5 0 0 0 oTg
'N
S 0 0 z#B(1uI
EAR ! End array %J8uVD.2
S 0 10.222 tu' s]3RE
PIM 8osP$"/o
SI 0 0 v Q51-.g
LAY;SUR So..i;GO o]DYS,v
5><T#0W?
o8X? 1
Figure 2. 1:1 GRIN array