Diffraction lens element and lighting system using the lens element
First Claim
1. A diffractive lens element in which a cross-sectional form is formed in a step shape by forming multiple recessed portions having different depths with respect to a transparent base material, and has optical functions of one lens or a plurality of lenses and a random phase plate in combination, said diffractive lens element characterized in that recessed portions having irregular phase variations are formed by adding or superimposing a variation amount in accordance with a random number onto depths of recessed portions constituting steps which are equivalent in value to a lens or a lens array.
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Accused Products
Abstract
By proposing a diffractive optical element having optical functions of a random phase plate and a lens array in combination, and an illumination apparatus employing this lens element, reduction of speckles, and improvements in energy efficiency and light utilization efficiency are achieved simultaneously.
In a transparent base material, by individually assigning or superimposing an amount of variation in accordance with a random number onto each of the depths of recessed portions constituting steps equivalent in value to a lens or a lens array, recessed portions having irregular phase variations are formed and a diffractive lens element (6) is made. Also, in an illumination apparatus employing this diffractive lens element and a laser light source, in order to obtain a uniform illumination light from which speckles are eliminated, the diffractive lens element (6) is rotated by a rotating means.
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3 Claims
- 1. A diffractive lens element in which a cross-sectional form is formed in a step shape by forming multiple recessed portions having different depths with respect to a transparent base material, and has optical functions of one lens or a plurality of lenses and a random phase plate in combination, said diffractive lens element characterized in that recessed portions having irregular phase variations are formed by adding or superimposing a variation amount in accordance with a random number onto depths of recessed portions constituting steps which are equivalent in value to a lens or a lens array.
Specification