Angular optical filtering element for angular filtering having controlled angular selectivity

The invention claimed is: 1. An angular optical filtering element (E i ) optimized for the angular filtering about a given angle of incidence of operation (θ i , φ i ), within a given spectral band, comprising: a first nanostructured band-pass spectral filter ( 11 i , 301 ), comprising, within said spectral band, a first filtering central wavelength which exhibits a first angular dispersion curve, the angular dispersion curve representing the variation of the first filtering central wavelength determined as a function of the angle of incidence on the optical filtering element (E i ); a second nanostructured band-pass spectral filter ( 12 i , 302 ), comprising, within said spectral band, a second filtering central wavelength which exhibits a second angular dispersion curve representing the variation of the second filtering central wavelength determined as a function of the angle of incidence on the optical filtering element (E i ), the second angular dispersion curve being secant with the first angular dispersion curve around the angle of incidence of operation (θ i , φ i ). 2. The angular optical filtering element as claimed in claim 1 , in which at least one of the first and second spectral filters operate in transmission mode. 3. The angular optical filtering element as claimed in claim 1 , in which at least one of the first and second spectral filters operate in reflection mode. 4. The angular optical filtering element as claimed in claim 1 , in which one of the first and second spectral filters operates in absorption mode. 5. The angular optical filtering element as claimed in claim 1 , in which the first and second spectral filters are arranged in non-parallel planes. 6. The angular optical filtering element as claimed in claim 1 , in which at least one of the first and second nanostructured spectral filters is a guided mode resonance filter, a filter with free-standing metal or dielectric gratings, or else a filter comprising a resonance of the MIM (metal-insulator-metal) type. 7. The angular optical filtering element as claimed in claim 1 , in which at least one of the first and second nanostructured spectral filters is an interference filter. 8. A device for selective angular filtering at several given angles of incidence, comprising an array of angular optical filtering elements as claimed in claim 1 , each optimized for angular filtering about a given angle of incidence of operation (θ i , φ i ). 9. The device as claimed in claim 8 , in which the first nanostructured spectral filters are arranged according to at least a first one- or two-dimensional matrix ( 11 ), comprising a first plane carrier, and the second nanostructured optical filters are arranged according to at least a second one- or two-dimensional matrix ( 12 ), comprising a second plane carrier. 10. The device as claimed in claim 9 , in which the first and second carriers are arranged in non-parallel planes. 11. A multidirectional optical detection system comprising a device for selective angular filtering as claimed in claim 8 and an array of optical detection elements ( 15 j ), each optical detection element being associated with an angular optical filtering element for receiving the light flux transmitted by said angular optical filtering element at the angle of incidence of operation of said angular optical filtering element. 12. The multidirectional optical detection system as claimed in claim 11 , in which one of the first or second spectral filters of an angular optical filtering element is an absorption filter formed by the optical detection element associated with said angular optical filtering element. 13. The multidirectional optical detection system as claimed in claim 11 , in which the optical detection elements are bolometers. 14. The multidirectional optical detection system as claimed in claim 11 , in which the optical detection elements are arranged according to a one- or two-dimensional matrix ( 15 ), comprising a plane carrier. 15. The multidirectional optical detection system as claimed in claim 11 furthermore comprising a housing ( 130 ) in which the device for selective angular filtering and the array of the optical detection elements are arranged. 16. A method for fabrication of a multidirectional optical detection system as claimed in claim 11 comprising: the fabrication of a first matrix of first spectral elements on a first plane carrier; the fabrication of a second matrix of second spectral elements on a second plane carrier; the fabrication of a third matrix of optical detection elements on a third plane carrier; the arrangement of said matrices in a housing.