Title :
Thin diffraction grating technology
Author :
Thain, A. ; Jaber, A. ; Platon, Y. ; Herve, A. ; Peres, G. ; Pasquier, B. ; Evain, L. ; Cambon, G. ; Harly, F. ; Lenquette, H. ; Sinigaglia, B. ; Spitz, B.
Author_Institution :
Airbus Group Innovations, Toulouse, France
Abstract :
Reflective diffraction gratings employ periodic arrays of a given three dimensional structure to produce appropriate constructive and destructive interference to redirect an incident wave. Depending upon the angle of incidence, the thickness required for this structure can range from a fraction of a wavelength to several wavelengths. Whilst such a thickness does not present a problem for optical applications it can make the diffraction grating very bulky for radio applications, notably in the lower frequency bands. This paper presents a new thin diffraction grating employing resonant structures, whose thickness is only 1/34th of a wavelength.
Keywords :
diffraction gratings; constructive interference; destructive interference; periodic arrays; radio applications; reflective diffraction gratings; resonant structures; thin diffraction grating technology; three dimensional structure; wavelength fraction; Buildings; Capacitance; Diffraction; Diffraction gratings; RLC circuits; Reflection; Resonant frequency; Diffraction; Grating; ILS; Resonant; Thin; stealth;
Conference_Titel :
Antennas and Propagation (EuCAP), 2015 9th European Conference on
Conference_Location :
Lisbon
