The following input will simulate a 1:1 array of GRIN rods (see Figure 2): /MMn��W$)
h��:�|�BQC
o�rYZ��<,u
8_ascvs��5
RDM;LEN '�?�
�-N�
TIT 1:1 GRIN ARRAY XH(-anU"!P
NAO 0.1 )#G�F:�.B
TEL ! Telecentric 8GRB6�-�.h
DIM M `�K�n+d~S4
WL 633 )*�R';/zaI
YOB -5 5 0 -10 10 =HB(N|9�_d
PRV ! GRIN material (SELFOC form) =c�$x xEDD
PWL 633
�]Nt���BP
'SLSPRV' 1.5 BP�l%� �SL
SEL 1 ! Grin step size azNv(|eeJL
SEL C1 .076 ! First coeff. of SELFOC formula (`_f�P.Ogb
END yye5G��VY$
So 0 10.222 2�#�00<t\
RED -1 WMW=RgiW\�
S 0 0 0rQ��r#0�`
S 0.0 60.0 'SLSPRV' ! GRIN rod (array channels) �S>�p0{:zM
STOP sP}u�� zS�
CIR 1.25 ! Aperture of each channel 4�\nG�Wi{2
! (applies to entire length �_"O�E}$�C
! of GRIN rod) I<XYLe�[_S
! Array definition <`G-_��V�I
j�:>�0X��P
! ARR x_spacing y_spacing y_offset max_x max_y QoZ�ZXCU��
ARR 2.5 2.5 0 0 0 ��%��C@p4
S 0 0 �!!� �)W�`
EAR ! End array �Rry�]�6(�
S 0 10.222 6|{&�7=1�t
PIM sekei�6#fi
SI 0 0 7l�A_*t�@y
LAY;SUR So..i;GO ��[�k(b<'
B�[6k�
[Vs
���e�*}�GQ
Figure 2. 1:1 GRIN array
