Absorption cavity with entrance and exit waveguides for a chemical or biological sensor

The invention claimed is: 1. An optical device for a chemical or biological sensor, comprising: an absorption cavity including reflective inner walls and configured to receive a chemical or biological medium; an injection waveguide, extending outside the absorption cavity and configured to inject an analysis light beam inside the absorption cavity; and an extraction waveguide, extending outside the absorption cavity and configured to extract a measurement light beam, coming from inside the absorption cavity and corresponding to the analysis light beam having transited through the absorption cavity; wherein the absorption cavity has a shape of a right cylinder, wherein a shape of a base of the right cylinder is part of an ellipse, one end of the injection waveguide is arranged at a first focus of the ellipse and one end of the extraction waveguide is arranged at a second focus of the ellipse, and a core of the injection waveguide and a core of the extraction waveguide each include a tip shaped section protruding outside of a cladding of the injection waveguide and a cladding of the extraction waveguide, respectively, the tip shaped section having a decreasing cross-sectional area as a function of distance from the one end of the extraction waveguide and the injection waveguide, respectively. 2. The device according to claim 1 , wherein the injection waveguide and the extraction waveguide each include: the cladding, including a slimmed end, on a side of the absorption cavity; the core, including the tip shaped section, on the side of the absorption cavity, which protrudes outside of the cladding; and an adaptation region surrounding the slimmed end of the cladding and the tip shaped section of the core. 3. The device according to claim 2 , wherein each adaptation region is formed by at least one secondary cavity, open to the absorption cavity. 4. The device according to claim 1 , wherein a central axis of the injection waveguide and a central axis of the extraction waveguide each extend in a straight line, each inclined by a respective non-zero angle relative to a symmetry plane of the absorption cavity. 5. An optical device for a chemical or biological sensor, comprising: an absorption cavity including reflective inner walls and configured to receive a chemical or biological medium; an injection waveguide, extending outside the absorption cavity and configured to inject an analysis light beam inside the absorption cavity; and an extraction waveguide, extending outside the absorption cavity and configured to extract a measurement light beam, coming from inside the absorption cavity and corresponding to the analysis light beam having transited through the absorption cavity; wherein the absorption cavity has a shape of a right cylinder, wherein a shape of a base of the right cylinder is part of an ellipse, one end of the injection waveguide is arranged at a first focus of the ellipse and one end of the extraction waveguide is arranged at a second focus of the ellipse, a core of the injection waveguide and a core of the extraction waveguide each include a tip shaped section having a decreasing cross-sectional area as a function of distance from the one end of the extraction waveguide and the injection waveguide, respectively, and each respective non-zero angle θ i is substantially equal in absolute value to: θ i = sin - 1 ⁡ ( n c * Δ ⁢ ⁢ x n i * Δ ⁢ ⁢ x 2 + b 2 ) with: n c a refractive index inside the absorption cavity; n i an effective index of a guided mode in the injection waveguide at the one end of the injection waveguide, respectively an effective index of a guided mode in the extraction waveguide at the one end of the extraction waveguide; Δx a distance between a center of the injection waveguide, at the one end of the injection waveguide, and a center of the ellipse, respectively a distance between a center of the extraction waveguide, at the one end of the extraction waveguide, and the center of the ellipse; and b a distance between the center of the ellipse and a bottom of the absorption cavity, on a side opposite to the injection and extraction waveguides. 6. The device according to claim 1 , wherein the injection waveguide and the extraction waveguide are symmetrical with each other, relative to a symmetry plane of the absorption cavity. 7. The device according to claim 1 , wherein a distance between respective centers of the injection waveguide and the extraction waveguide, at respective ends of the injection waveguide and the extraction waveguide situated on a side of the absorption cavity, is greater than 5 μm. 8. The device according to claim 1 , wherein dimensions and refractive indices of the injection waveguide and the extraction waveguide, and a distance between respective centers of the injection waveguide and the extraction waveguide, at respective ends of the injection waveguide and the extraction waveguide situated on a side of the absorption cavity, are adapted so that a guided mode at an exit of the injection waveguide does not interfere with a guided mode at an entrance of the extraction waveguide. 9. The device according to claim 1 , wherein the injection waveguide and the extraction waveguide are connected together by a loopback waveguide, the injection waveguide, the extraction waveguide and the loopback waveguide being formed together in a single piece. 10. The device according to claim 9 , further comprising a main waveguide, extending parallel to a tangent to the loopback waveguide, for transfer of the analysis light beam from the main waveguide to the loopback waveguide, and transfer of the measurement light beam from the loopback waveguide to the main waveguide, by evanescent coupling. 11. The device according to claim 9 , wherein the loopback waveguide extends to a rear of the absorption cavity, on a side opposite to a side receiving the respective ends of the injection waveguide and the extraction waveguide. 12. A chemical or biological sensor, comprising: the optical device according to claim 1 ; a light source, for emission of