OFF-AXIS HYBRID SURFACE THREE-MIRROR OPTICAL SYSTEM

1. An off-axis hybrid surface three-mirror optical system comprising:

• a primary mirror located on an outgoing light path of rays;
  
  a secondary mirror located on a first reflected light path, which is emitted from the primary mirror;
  
  a tertiary mirror located on a second reflected light path, which is emitted from the secondary mirror; and
  
  an image sensor located on a third reflected light path, which is emitted from the tertiary mirror;
  
  wherein a first three-dimensional rectangular coordinates system (x₁, y₁, z₁) is defined in space;
  
  relative to the first three-dimensional rectangular coordinates system (x₁, y₁, z₁), a second three-dimensional rectangular coordinates system (x₂, y₂, z₂) is defined by a primary mirror location, a third three-dimensional rectangular coordinates system (x₃, y₃, z₃) is defined by a secondary mirror location, and a fourth three-dimensional rectangular coordinates system (x₄, y₄, z₄) is defined by a tertiary mirror location;
  
  in the second three-dimensional rectangular coordinates system (x₂, y₂, z₂), a reflective surface of the primary mirror is a sixth-order polynomial freeform surface of x₂y₂;
  
  in the third three-dimensional rectangular coordinates system (x₃, y₃, z₃), a reflective surface of the secondary mirror is a sixth-order polynomial aspheric surface of x₃y₃; and
  
  in the fourth three-dimensional rectangular coordinates system (x₄, y₄, z₄), a reflective surface of the a tertiary mirror is a spherical surface of x₄y₄.