New Focus on Fourier Optics Techniques,需要的下吧. NU/:jr.W#  
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Abstract ;+NU;f/WM  
We  present  a  short  overview  on  the  application  of  fractional  cyclic  and  linear  canonical  transformations  to optical signal processing and dedicate some of the discussions to the particular features  found in the  fractional Fourier transform domain. (;T g1$  
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1. Introduction ? f>pKe  
Almost  forty  years  ago, Anthony Van  der  Lugt  initiated, with  his  pioneering work  on optical  filtering  and  optical  signal  processing,  an  epoque  of  expansion  of  Fourier  Optics. Z%9_vpWc  
Essentially he introduced for the first time a new configuration for optical data processing, the so  called  optical  correlator  and  later  named  Van  der  Lugt  correlator,  [1].  The  optical correlation operation is based upon the capacity of a convergent lens to perform an operation proportional to the Fourier Transform, in two dimensions, of a particular object, so that this response  is  located  at  the  real  back  focal  plane  of  the  lens. By  now  from  various  decades analogical  optical  processors,  joint  transforms  correlators,  correlators  with  space  and  time integration,  adapted  filters,  etc.  are  extensively  used,  [2]. Other  tools  for  signal  processing such as wavelets and bilinear distributions are optically implemented as well, [3].   V'm4DR#M  
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Proc. SPIE, Vol. 5581, 517 (2004); doi:10.1117/12.582916 Yj#4{2A  
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www.sps.ele.tue.nl/members/m.j.bastiaans/pdfs/newfocus.pdf

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