[求助]ZEMAX照明uniform illumination設(shè)計的問題？ [復(fù)制鏈接]

我現(xiàn)在再用zemax做均勻化照明，出現(xiàn)了很多問題，急需指點。 `<zb  
這是一個non-sequential系統(tǒng)，我用fly's eye lens array做均勻化， l5[xJH  
1.怎么計算lens的焦距，這個問題涉及到最后均勻照明區(qū)域的大小 =T)2wcXBB  
2.怎么限制lens的edge，比如fly's eye lens array 的cell 的edge值 和 隨后fourier lens的edge？ M9#QS`G  
3. 是否可以用NSDD直接來限制均勻照明區(qū)域的大�。� E/ZJ\@gzD  
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我的基本想法是： 3ms/v:\  
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1.首先NSDD來限制照明區(qū)域大小尺寸                           $:[BB,$  
2.設(shè)定fly's eye lens array 的radius， thickness為變量，來求均勻照明。 4E>(Y98  
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我的問題是 希望直接用透鏡焦距比來控制照明區(qū)域的尺寸，但是不知道怎么求焦距？ Nr9[Vz?$P  
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希望有經(jīng)驗的高手多多指教！

My personal opinion is u online search for ready-made microlens arrays then continue with ur design. This will definitely reduce the cost as starting a new precision molding no doubt will shoot up the cost. You may design in sequential mode because it is faster and easier.Non-sequential mod getting slower when the N number increase. I#t9aR+&  
Go Suss microoptics website search for an excel file which is very very helpful this design.Under homogenizer section. 3:joSQa  
Do take note that if your source is high coherency, the grating effect and speckles may donimate. ]HV~xD7\  
Sorry for not typing in Chinese cos my this computer not able to do so.But I do understand Chinese.I have a few this type of designs but cannot share out due to confidential issue. enjoy trying dude!

在nonsequential中，我一旦設(shè)置 lens array radius， conic coonstant， lens thickness :F>L;mp  
和fourier lens 的參數(shù)為變量（外加location），讓他們優(yōu)化時，比如控制RMS，結(jié)果經(jīng)常非常差， 90iW-"l+[  
要么照明大小不對，照明強度極度不均勻，而且參數(shù)都不合理了。 7e4tUAiuU  
我希望了解如何一步一步的優(yōu)化到均勻照明！ 1mn$Rh&dO  
thanks！

我是新來學(xué)習(xí)的   多看一下你們的成就

One of the main reason of not getting homogenous illumination is due to CROSSTALK! which is the over-filling of rays from adjacent lens in the arrray. To overcome this kind of problem, a properly written merit function or ZPL is needed if u wanna run the optimization automatically by setting all the array's radius, lens separation, thickness, fourier lens radius as varaibles. This is definitely not an easy task and most probably will get into a mess. For me I break the design into a few parts. By understanding the function of the components (microlens and the fourier lens) is important. Microlens is used to break the beam into many bundle of beamlets. Each microlens in the array is identical. In fact, the configuration of two microlens arrays is just like designing a collimating system just that now the input beam is smaller. the separation of arrays must less than 2 times of the total FL of the lens pitch to avoid crosstalk. Normally i just use slightly bigger than 1FL. Then the fourier lens is just like a normal focusing lens, it also determine the size of the flat-top dimension at image plane. The operand i used is POPD (data 30-32).  This way of design is faster and easier, so i no need to bother to write a complicated MF or ZPL. A piece of advice is look for off-the-shelf microlens array is always the cheapest and faster solution than making a new mask for array. New mask accuracy and tolerance is sometimes hard to guarantee the performance. =e-a&Ep-z  
http://www.suss-microoptics.com/downloads/SMO_TechInfo_Sheet_10.pdf XDP6T"h  
http://www.suss-microoptics.com/downloads/SMO_TechInfo_Sheet_10_Examples.pdf gfdPx:7^  
Refer the their technical documentation and sample design file in zemax. vy{rwZ$  
You will find that the excel file is a handy calculator for this design.  r21?c|IP  
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wish this help!

Arghh...spend some time typing a long comment and itsn`t published Gotta re-type all overagain.

I also tried to design this uniform illumination system in sequential. uuI3NAi~  
Just try to optimization the default best image and put the data into non-sequential mode. w;N{>)hv  
(we could easily control the focal length and everything in sequential mode.) J>f /u:.  
The result looks fine, not the best ~but pretty close. M*g2VyZ  
I guess the design will give us a better start point. 4u3 \xR?w6  
I am still thinking what I should do next? ,3w