Dual wavelength scanning system

1. An apparatus for scanning a target, said apparatus comprising:

• a first broadband optical source, said first broadband optical source generating first broadband radiation with a first wavelength range centered at a first wavelength, hereafter referred to as first wavelength radiation;
  
  a first beamsplitter, said first beamsplitter transmissive for radiation at said first wavelength range;
  
  a second beamsplitter, said second beamsplitter splitting said first wavelength radiation into first probe radiation and first reference radiation, said first probe radiation directed to said first target region;
  
  and said first reference radiation directed in a first reference optical pathway;
  
  a first surface in said reference optical pathway, said first surface highly transmissive at said first wavelength range;
  
  a second surface parallel to and at some distance from said first surface, said second surface partially reflective at said first wavelength range;
  
  a third surface, parallel to and at some distance from said second surface, said third surface highly reflective at said first wavelength range;
  
  an optical path length varying device, upon which said optical path length varying device said third surface is mounted;
  
  wherein the combination of said third surface, highly reflective for first wavelength radiation, mounted on said optical path varying device, and said second surface, partially reflective of said first wavelength radiation, said combination imposes different frequency content on different components of said first wavelength reference radiation so as to form a first composite reference radiation, said first composite reference radiation in turn imposes different frequency content on the interferometric signals resulting from combining captured scattered first probe radiation with said first composite reference radiation, and produces a first set of resulting composite interference signals;
  
  a third beamsplitter, said third beamsplitter transmissive of first wavelength radiation in said first reference optical path;
  
  a first detector, said first detector detecting said first set of resulting composite interference signals;
  
  a processing module, said processing module including a microprocessor and coupled to said rust detector and a control module, where said processing module outputs a first scan of said target, said first scan consisting of a first set of scan segments that are centered around a first wavelength and where the separation of the center points of said first set of scan segments, is determined by the distance between said second surface and said third surface;
  
  a second broadband optical source, said second broadband optical source generating broadband radiation with a wavelength range centered at a second wavelength, said second wavelength being different from said first wavelength, hereafter referred to as said second wavelength radiation;
  
  said first beam splitter, said first beam splitter reflective for radiation at said second wavelength range;
  
  said second beamsplitter, said second beamsplitter splitting said second wavelength radiation into second probe radiation and second reference radiation, said second probe radiation directed to said second target region,and said second reference radiation directed in a second reference optical pathway said first surface in said second reference optical pathway, said first surface partially reflective of said second wavelength range,said second surface parallel to and at some distance from said first surface, said second surface highly transmissive at said second wavelength range;
  
  said third surface, parallel to and at some distance from said second surface, said third surface highly reflective at said second wavelength range;
  
  said optical path length varying device, upon which said optical path length varying device said third surface is mounted,wherein the combination of said third surface, highly reflective for second wavelength radiation, mounted on said optical path varying device, and said first surface, partially reflective of said second wavelength radiation, where said combination imposes different frequency content on different components of said second wavelength reference radiation so as to form a second composite reference radiation, and said second composite reference radiation in turn imposes different frequency content on the interferometric signals resulting from combining captured scattered second probe radiation with said second composite reference radiation, and produces a second set of resulting composite interference signals;
  
  said third beamsplitter, said third beamsplitter transmissive of second wavelength radiation;
  
  a second detector, said second detector detecting said second set of resulting composite interference signals;
  
  said processing module, said processing module coupled to said second detector and said control module, where said processing module outputs a second scan of said target, said second scan consisting of a second set of scan segments that are centered around a second wavelength and where the separation of the center points of said second set of scan segments, is determined by the distance between said first surface and said third surface; and
  
  display device, whereby said first scan and said second scan are displayed in accurate relation to said first and second regions of said target.