초록 ▼

This detector is intended to detect at least one photon and comprises a dielectric substrate (30), of index nO; a detecting element (32) forming a serpentine, placed on the substrate and generating a signal using the energy of the photon(s); a dielectric grating, formed of lines of index nH, alterna

This detector is intended to detect at least one photon and comprises a dielectric substrate (30), of index nO; a detecting element (32) forming a serpentine, placed on the substrate and generating a signal using the energy of the photon(s); a dielectric grating, formed of lines of index nH, alternating with lines of index nB, avec nH>nO and nH>nB, the grating being placed above the detecting element, the set grating-element presenting a resonant absorption in a given incidence and for a given polarisation; and a superstratum (40) having a refractive index ni, this superstratum being placed above the one-dimensional dielectric grating, nH being furthermore greater than ni.

대표청구항 ▼

The invention claimed is: 1. Optical detector, intended to detect at least one photon, this detector comprising: a dielectric substrate, having a refractive index nO, and a detecting element forming a serpentine, the detecting element being placed on the dielectric substrate and designed to generat

The invention claimed is: 1. Optical detector, intended to detect at least one photon, this detector comprising: a dielectric substrate, having a refractive index nO, and a detecting element forming a serpentine, the detecting element being placed on the dielectric substrate and designed to generate an electric signal using the energy of the photon(s) received, this optical detector being characterised in that it further comprises a one-dimensional dielectric grating, including parallel lines, namely first lines that are made of a first dielectric material having a refractive index nH, and second lines that alternate with the first lines and that are made of a dielectric medium having a refractive index nB, the one-dimensional dielectric grating being placed above the detecting element, the set constituted by the one-dimensional dielectric grating and the detecting element presenting resonant absorption of the photon(s), at a given incidence and for a given polarisation of the photon(s), nH being greater than nO and nB, and a superstratum having a refractive index ni, this superstratum being placed above the one-dimensional dielectric grating, nH being furthermore greater than ni. 2. Optical detector set forth in claim 1, wherein the given incidence is a normal incidence. 3. Optical detector as claimed in claim 1, wherein the superstratum is a gas, especially air, a liquid, a solid or a vacuum. 4. Optical detector as claimed in claim 1, wherein pitch Λ of the one-dimensional dielectric grating is less than λO/nO, where λO represents the wavelength in vacuum of the photon(s), and pair (wr/Λ, d) is selected to lead to a resonant absorption, where wr represents the width of the first lines of the one-dimensional dielectric grating and d represents the thickness of this one-dimensional dielectric grating, and Λ is furthermore less than λO/ni. 5. Optical detector as claimed in claim 1, wherein the difference nH−nB is greater than 1. 6. Optical detector as claimed in claim 1, wherein the detecting element (32) is made of a superconducting material. 7. Optical detector as claimed in claim 1, wherein the serpentine includes parallel lines, connected to each other, and each line of the serpentine is positioned facing one of the lines of the one-dimensional dielectric grating. 8. Optical detector as claimed in claim 1, wherein the serpentine includes parallel lines, connected to each other, and each line of the serpentine is positioned facing one of the first lines of the one-dimensional dielectric grating. 9. Optical detector as claimed in claim 1, wherein the serpentine includes parallel lines, connected to each other, and lines of the serpentine and the first lines of the one-dimensional dielectric grating have the same width and form periodic units having the same period. 10. Optical detector as claimed in claim 1, wherein the first lines of the one-dimensional dielectric grating have different widths wrL and wrS and the first lines whose width equals wrL alternate with the first lines whose width equals wrS. 11. Optical detector as claimed in claim 1, wherein the second lines of the one-dimensional dielectric grating have different widths. 12. Optical detector as claimed in claim 1, further comprising an intermediary layer which is made of a dielectric material having a refractive index n greater than nB and which is placed between the detecting element and the one-dimensional dielectric grating. 13. Optical detector, intended to detect one photon or photons, this optical detector including a polarisation splitter including an input port, intended to receive the photon(s), and two output ports which are respectively connected to two optical detectors as claimed in claim 1. 14. Optical detector including a matrix of optical detectors as claimed in claim 1.