Patent ID: 6404553
Filing Date: 2002-06-11
Classification: G02B,G02F,G03H

Abstract:
A method for affecting the desired optical characteristics of an optical system using phase active diffractive optics comprising:directing incident light onto a material whose index of refraction is continuously and spatially variable over a surface area of the material, passage of the incident light through the material affecting the phase and amplitude of the light waveform; determining an optical map for said surface of said material, said map comprising variations in the index of refraction over the surface of said material, and said map representing any of a range of refractive and diffractive optical elements whereby said material emulates a selected optical element; continuously controlling the phase of said incident light across a wavefront of said light waveform by dynamically writing said map onto said material to map said material such that said incident light's passage through said material corresponds to the passage of said light through the optical element currently being emulated by said material, the phase of said waveform being continuously controllable from a phase depth of zero to a phase depth substantially greater than 2&pgr;, whereby emergent light from the material has similar amplitude and phase characteristics as if the incident light had passed through a refractive, diffractive, or composite optical element being emulated, the controlling operations and the determining of said optical mapping implement the optical transfer function: M&af;(f&RightArrow;)=&ee;(&ii;Ï€&af;(m+1)&it;Î»&it;â€ƒ&it;z&it;f&RightArrow;2)&it;&Integral;-âˆž+âˆž&it;T*(w&RightArrow;-Î»&it;â€ƒ&it;z&it;f&RightArrow;)&CenterDot;T&af;(w&RightArrow;)&it;&ee;(-2&it;Ï€&it;â€ƒ&it;&ii;&af;(m+1)&it;w&RightArrow;&CenterDot;f&RightArrow;)&it;&dd;w&RightArrow;where:m=z/z is the image distance/the object distance; &lgr; is the wavelength; {right arrow over (w)}=&lgr;z{right arrow over (&mgr;)} is the wavelength Ã— image distance Ã— two dimensional spatial frequency variable of integration; T is the amplitude transmission function for the aperture; {right arrow over (f)} is a two dimensional spatial frequency; and sensing the emergent light with a forward looking infrared receiver.