PROJ L;KL
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ON 67 x_H"<-By  
CCW ({!*&DVu  
CORE 6 \nQEvcH  
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DSEARCH 3 QUIET W*4!A\K  
SYSTEM _&xkj8O  
ID 4P_ASPHERIC 8}^ym^H|j  
OBB 0 35 0.5 !.285 TR{dNO!q  
UNI MM U(:t$SBKy  
!WAVL CDF        ! use visual wavelengths at C, d, and F lines =E8Kacu%  
a\I`:RO=<Z  
WA1 .6562800 .5875600 .5460700 .4861300 .4358400 ;Y(~'KF  
CORDER   3   1   5   2   4
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WT1 9.00000 15.0000 16.0000 10.0000 7.00000 @;d7#!:cE  
END a.AEF P4N  
sZU Ao&  
GOALS                       ! define the goals here 'zTa]y]a  
ELEMENTS 5                 ! we want a four-element lens with a cover glass ]PXpzruy  
BACK 0.6 1           ! ask for 0.4 mm back focus distance hM`*-+Zb  
FNUM 2.4 10               ! ask for F/2.7, weight of 10 W{;LI WsZ  
THSTART .3               ! global search use thicknesses 0.1 mm 
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RSTART 50                 ! and starting radius of 50 mm .s@[-! p  
ASPH 2                 ! allow four aspheric terms: CC, 4th, 6th, and 8th power ~


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delay 9999               ! these runs are fast, so don’t ask to continue on timeout cK+)MFOu+  
ANNEAL 10 1 Q           ! anneal each case, temp 10 degrees, cool 1, including quick :y[tZ&*<_?  
Quick .w]S!=h  
SNAP 5                    ! redraw PAD screen every five passes ^kp
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STOP FIRST               ! put the stop in front H=9\B}  
STOP Fix           ! and keep it there n 6|\  
QUICK 20 20            ! run quick mode 20 passes, then real mode 20 BLhuYuON  
NGRID 6                   ! 6x6 grid of rays in pupil 6T~xjAuJ3T  
TOPD                       ! correct both transverse aberrations and OPDs, For Mobile $(%t^8{a~G  
FOV 0 .2 .4 .6 .8 1  ! correct six field points