An optical filtering device, in particular for remote gas detection, including a member comprising a tubular passage accommodating a plurality of reflective structures capable of reflecting infrared wavelengths, said structures being elongated along an axis of the tubular passage and arranged around
An optical filtering device, in particular for remote gas detection, including a member comprising a tubular passage accommodating a plurality of reflective structures capable of reflecting infrared wavelengths, said structures being elongated along an axis of the tubular passage and arranged around the axis. The reflective structures comprise means of filtering by absorption of bands of different wavelengths located in the infrared spectral band.
대표청구항▼
1. An optical filtering device for remote gas detection, the device comprising: a member comprised of a plurality of reflective structures that define a tubular passage, said plurality of reflective structures being planar and elongated along an axis of the tubular passage and arranged around said a
1. An optical filtering device for remote gas detection, the device comprising: a member comprised of a plurality of reflective structures that define a tubular passage, said plurality of reflective structures being planar and elongated along an axis of the tubular passage and arranged around said axis,wherein said plurality of reflective structures are capable of reflecting infrared wavelengths, each of said reflective structures including respective filtering means for filtering radiative flux by absorption of bands of different wavelengths located in the infrared spectral band. 2. The device of claim 1, wherein at least one of the reflective structures includes a support substrate for supporting the filtering means. 3. The device of claim 2, wherein at least one of the reflective structures has filtering means comprised of a surface plasmon structure that includes: a metallic layer comprised of a metallic material in contact with the support substrate,a dielectric layer comprised of a dielectric material, anda plurality of pads arranged on a surface of the dielectric layer, said plurality of pads dimensioned and spaced relative to each other so as to allow absorption of a given reflected band of wavelengths. 4. The device of claim 3, wherein the plurality of pads are distributed over a two-dimensional array with constant spacing between the pads. 5. The device of claim 3, wherein the plurality of pads have a cylindrical shape with an axis of revolution that is substantially perpendicular to the metallic layer and the dielectric layer. 6. The device of claim 1, wherein the device includes at least three of said reflective structures, the respective filtering means of each of said reflective structures has an absorption band that is different from an absorption band of the respective filtering means of the other said reflective structures. 7. The device of claim 1, wherein the tubular passage has a square cross-section, a rectangular cross-section, a triangular cross-section or a hexagonal cross-section. 8. A device for remote optical gas detection comprising: an optical filtering device for remote gas detection, comprising: a member comprised of a plurality of reflective structures that define a tubular passage, said plurality of reflective structures being planar and elongated along an axis of the tubular passage and arranged around said axis,wherein said plurality of reflective structures are capable of reflecting infrared wavelengths, each of said reflective structures including respective filtering means for filtering radiative flux by absorption of bands of different wavelengths located in the infrared spectral band;a plurality of sensing elements; andoptical means for focusing on the plurality of sensing elements images from an area of space to be observed through the optical filtering device. 9. The device for remote optical gas detection of claim 8, wherein the device for remote optical gas detection further comprises a diaphragm inserted between an inlet lens and an inlet of the tubular passage. 10. The device for remote optical gas detection of claim 8, wherein the device for remote optical gas detection further comprises a diaphragm inserted between an outlet of the tubular passage and the plurality of sensing elements. 11. The device for remote optical gas detection of claim 8, wherein the tubular passage has a square cross-section, a rectangular cross-section, a triangular cross-section or a hexagonal cross-section. 12. The device for remote optical gas detection of claim 8, wherein at least one of the reflective structures includes a support substrate for supporting the filtering means. 13. The device for remote optical gas detection of claim 8, wherein at least one of the reflective structures includes filtering means comprised of a surface plasmon structure that includes: a metallic layer comprised of a metallic material,a dielectric layer comprised of a dielectric material, anda plurality of pads arranged on a surface of the dielectric layer, said plurality of pads dimensioned and spaced relative to each other so as to allow absorption of a given reflected band of wavelengths. 14. The device for remote optical gas detection of claim 13, wherein the plurality of pads are arranged in a plurality of rows, said pads aligned in a direction of an optical axis of the device for remote optical gas detection. 15. The device for remote optical gas detection of claim 8, wherein the plurality of sensing elements are arranged in an array, said optical means respectively focusing subimages of said image on each of the sensing elements. 16. The device for remote optical gas detection of claim 15, wherein the subimage focused on the sensing element located at a center of said array corresponds to an unfiltered image from the area of the space to be observed.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (4)
Duda C. Richard (El Segundo CA), Absolute radiometric detector.
Noack Jean-Claude (Cabries FRX) Guern Yves (Jouques FRX) Pelous Grard (Aix en Provence FRX), Method and apparatus for remote optical detection of a gas present in an observed volume.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.