Title :
Rigorous modal theory for perfectly conducting lamellar gratings
Author :
Miller, J. Michael ; Turunen, Jan ; Taghizadeh, Mohammad R. ; Vasara, A. ; Noponen, Eero
Author_Institution :
Heriot-Watt Univ., Edinburgh, UK
Abstract :
Planar-integrated digital optical systems require reflection-type array generators. A modal algorithm is developed for perfectly conducting Dammann gratings. The method is first applied to the analysis of the scalar-theoretic designs in local resonance domain. Reflective resonance domain Dammann gratings with 100% diffraction efficiency are then designed, and their sensitivity to errors in fabrication and reconstruction is analysed. A five-beam resonance-domain grating is demonstrated experimentally at λ=10.6μm
Keywords :
computer-generated holography; holographic gratings; 10.6 micron; CGH; Dammann gratings; errors; fabrication; five-beam resonance-domain grating; local resonance domain; modal algorithm; perfectly conducting lamellar gratings; reconstruction; reflective resonance domain; scalar-theoretic designs; sensitivity;
Conference_Titel :
Holographic Systems, Components and Applications, 1991., Third International Conference on
Conference_Location :
Edinburgh
Print_ISBN :
0-85296-528-1
