Cold shield for a scanned linear IR detector array

1. In an IR sensor for a scanned linear array having a predetermined optical scanning direction and a predetermined resolution direction, a combination providing improved cold shielding efficiency, comprising:

• (A) an enclosure normally maintained at ambient temperature, having an aperture for admitting IR radiation and containing optical means for focusing IR image radiation entering said aperture upon a focal plane;
  
  (B) a cryogenically cooled, evacuated dewar for enclosing said focal plane, said dewar having an IR transparent window;
  
  (C) a linear IR detector array positioned at said focal plane with said dewar, an axis of the array, which is coincident with the resolution direction being oriented orthogonal to the scanning direction, the linear array including more than two columns of pixels disposed parallel to the axis of the array; and
  
  (D) cold shielding means installed within said dewar for reducing the amount of unfocused IR radiation impinging of said array, comprising(1) a first cold shield comprising an elongated slot spaced from said linear array to intercept radiation exceeding the focused pixel angular field measured in the scanning direction for the pixels in each column, and(2) a second and a third cold shield supported between the first cold shield and the focal plane in proximity to the pixels in said linear array,(a) the second shield having successive walls disposed between pixels at successive row positions in said columns erected on a surface proximate to the plane of said pixels for defining openings between the walls, the walls being sufficiently high in relation to the pixel width to exclude radiation significantly exceeding the focused pixel angular field measured in the resolution direction, and(b) the third shield including an apertured plate, having one aperture for at least one pixel all in the same optical scan direction, disposed between the first cold shield and the second cold shield and aligned with the openings between said walls to reduce radiation exceeding the focused pixel angular field in the resolution direction,said first, second and third cold shields restricting the angular fields at each pixel to optimize the ratio of focused image radiation entering said aperture to unfocused IR radiation from said enclosure.