Hybrid binary optics collimation fill optics
First Claim
1. An optical lens system for collimating and redistributing a divergent input light comprising:
- a) a cylindrical lens wherein said lens substantially collimates the divergent input light;
b) a binary optical element, comprising a substantially planar substrate having a front surface wherein said front surface has been formed such that the optical path length traveled by each ray of divergent input light from a source of the divergent input light to a collimation plane is substantially equal; and
c) a beam angle alignment element for aligning the divergent input light about an optical axis of the input light.
1 Assignment
0 Petitions
Accused Products
Abstract
A cylindrical lens and a binary optical element for collimating with low optical aberrations an asymmetrically diverging input wavefront. The binary optical element is formed on a planar substrate on which a binary optical diffraction pattern is etched on the front surface thereof. The binary optical diffraction pattern is designed such that each ray of light from the diverging input light source will travel the same optical path length or vary from that optical path length by an integer multiple of the wavelength of the light in travelling from its source to its exit from the front surface of the binary optical element. A beam angle alignment element is also provided, to be utilized in conjunction with a cylindrical lens and the binary optical element, for correcting angular misalignments of diode lasers whose output wavefront has an optical axis which is either above or below the plane in which the active region is formed. The beam angle alignment element is also a planar substrate on which a binary optic diffraction pattern is etched. The binary optic diffraction pattern of the beam angle alignment elements diffracts the wavefront exiting from the binary optic element so as to align the wavefront about its optical axis. The cylindrical lens, the binary optical element, as well as the beam angle alignment element may be used in conjunction with a single diode lasing element, as well as a one dimensional or a two dimensional diode laser array.
-
Citations
14 Claims
-
1. An optical lens system for collimating and redistributing a divergent input light comprising:
-
a) a cylindrical lens wherein said lens substantially collimates the divergent input light; b) a binary optical element, comprising a substantially planar substrate having a front surface wherein said front surface has been formed such that the optical path length traveled by each ray of divergent input light from a source of the divergent input light to a collimation plane is substantially equal; and c) a beam angle alignment element for aligning the divergent input light about an optical axis of the input light. - View Dependent Claims (2, 3, 4, 5, 6, 7)
-
-
8. An array of optical lens systems for collimating and redistributing an array of divergent input light sources, comprising:
-
a) a plurality of cylindrical lenses wherein each of said lenses substantially collimate the divergent input light source; b) a plurality of binary optical elements, each of the binary optical elements comprising a substantially planar substrate having a front surface with a binary optic diffractive element etched thereon wherein said front surface has been formed such that the optical path length traveled by each ray of divergent input from a source of the divergent input light to a collimation plane is substantially equal, each of the binary optical elements positioned to receive a substantially collimated light beam from a corresponding cylindrical lens; and c) an array of beam angle alignment elements, each of the beam angle alignment elements positioned to align a light beam, emitted from a corresponding binary optical element, about an optical axis of a corresponding divergent input light source. - View Dependent Claims (9, 10, 11, 12, 13, 14)
-
Specification