The following input will simulate a 1:1 array of GRIN rods (see Figure 2): #m{{a]zm^
1LJuC�I=~�
+6$g�!�S5{
^mWybP�qx�
RDM;LEN `�nXV�E+E@
TIT 1:1 GRIN ARRAY 5�4;J8�XT7
NAO 0.1 ��kqYa*| l
TEL ! Telecentric b�i� �y4�d
DIM M =�h6
sPJ��
WL 633 >Iewx
G�b>
YOB -5 5 0 -10 10 >7`<!YJ�kK
PRV ! GRIN material (SELFOC form) 1 2++�RkL#
PWL 633 sbkQ71T�:
'SLSPRV' 1.5 enNiI$H]`_
SEL 1 ! Grin step size lU^;�Z��6f
SEL C1 .076 ! First coeff. of SELFOC formula HjqB^�|��z
END u?Tpi[�
#�
So 0 10.222 O�J�N2���z
RED -1 m�ME��4 l�
S 0 0 �v[�@c*wo
S 0.0 60.0 'SLSPRV' ! GRIN rod (array channels) N.�.�j{FE�
STOP Md6]R�-�l@
CIR 1.25 ! Aperture of each channel ��M2x��[�"
! (applies to entire length <^~F�Ljsfg
! of GRIN rod) X{n- N�5�*
! Array definition EC�dvX0*a
;@,Q�&B2eM
! ARR x_spacing y_spacing y_offset max_x max_y zsU=s�TsL�
ARR 2.5 2.5 0 0 0 "\�E��gs)\
S 0 0 h)1q�p �Qj
EAR ! End array �cfox7Fm�W
S 0 10.222 tt?5�8d�m|
PIM KTvz�OI8��
SI 0 0 J89Dul��l
LAY;SUR So..i;GO 8�zL�Y6@��
���<�H1��`
M<Sd��PC(+
Figure 2. 1:1 GRIN array
