Optical particle detector

1. A particle detector of optimized optical efficiency having restricted axial dimensions and using a dark field optical system in which a gaseous sample is illustrated and forward scattered light is collected in a zone centered about, but excluding on-axis light, and sensed to detect the presence of suspended particles in the sample, comprising:

• A. a measurement chamber into which a gaseous sample is admitted, said chamber containing an entrance aperture, a zonal exit aperture containing a central stop, and an internal aperture, said chamber otherwise excluding light, said apertures and stop being perpendicular to the detector axis and centered thereon;
  
  B. beamforming means comprising;
  
  (1) a narrow band light source,(2) a lens at said entrance aperture for projecting a beam of light from said source along said axis for illuminating suspended particles present in said chamber, said lens imaging said source in the plane of said internal aperture to a size smaller than said internal aperture to preclude beam impingement and to allow beam interception by said central stop, said beamforming lens being of an aspheric design calculated to correct spherical aberration for a point source at predetermined object and image distances and produce a sharp image of said light source;
  
  C. said entrance aperture, said internal aperture and said central stop being arranged to prevent light scattered from said beamforming lens from impinging on said zonal aperture;
  
  D. an output lens arranged in said zonal aperture for collecting scattered light, said output lens being blocked to the rays of said beam or scattered by said beamforming lens, but collecting forward scattered light when airborne scattering particles are in said measurement chamber, said output lens being a three element annular lens of high power having at least one aspheric surface calculated to correct spherical aberration for a point source at predetermined object and image distances and produce a sharp image of scattering particles present in said internal aperture, the central region of the more powerful face of each element of said output lens being truncated approximately to the obscuring diameter of said central stop to reduce the axial extent of said output lens, andE. a light detector for sensing the scattered light collected by said output lens, said image of scattering particles being focused upon said light detector and being of the approximate size of said light detector,said aspheric lenses permitting large numerical apertures and short focal lengths for maximum optical efficiency within a given axial dimension.