The following input will simulate a 1:1 array of GRIN rods (see Figure 2): 0}4FwcCr\
p E56CM
UmNh0nS
"k>;K,:
RDM;LEN 1cdX0[sN
TIT 1:1 GRIN ARRAY #Zq[.9!q{
NAO 0.1 |M$ESj4@
TEL ! Telecentric y9::m]s
DIM M kN8?.V%Utw
WL 633 ;p8,=w
YOB -5 5 0 -10 10 nq,P.~l
PRV ! GRIN material (SELFOC form) |]=s
PWL 633 tj<0q<is
'SLSPRV' 1.5 p6*|)}T_%
SEL 1 ! Grin step size z@tIC^s
SEL C1 .076 ! First coeff. of SELFOC formula F#>^S9Gml
END
JQO%-=t
So 0 10.222 XKEbK\
RED -1 <x->.R_
S 0 0 !fT3mI6u\
S 0.0 60.0 'SLSPRV' ! GRIN rod (array channels) -guVl4 V
STOP $g @-WNe
CIR 1.25 ! Aperture of each channel ]/TqPOi:
! (applies to entire length qJ5gdID1 _
! of GRIN rod) 2nv-/%]
! Array definition _VFL}<i
Zt{\<5j
! ARR x_spacing y_spacing y_offset max_x max_y $?Yw{%W
ARR 2.5 2.5 0 0 0 noSBwP|v*
S 0 0 ^hIKDc!.m
EAR ! End array yq,%ey8
S 0 10.222 O ]Stf7]%;
PIM K4|{[YpPB
SI 0 0 j87IxB?o
LAY;SUR So..i;GO n%%u0a%
vkg."G:=
maINp"#
Figure 2. 1:1 GRIN array