Optical device with integrated reflector(s) comprising a loop reflector integrating a mach-zehnder interferometer

The invention claimed is: 1. An optical device comprising a substrate on which is defined a unique primary waveguide consisting of two ending portions and a central portion, a loop that consists of the central portion of the unique primary waveguide and a first directional coupler, a second directional coupler formed by the ending portions of the unique primary waveguide, and a Mach-Zehnder interferometer intercalated between the first and second directional couplers, the Mach-Zehnder interferometer being arranged for compensating a wavelength dependence of the directional couplers. 2. The optical device according to claim 1 , wherein the primary waveguide is a rib or strip waveguide defined onto a silicon substrate. 3. The optical device according to claim 2 , wherein the rib or strip waveguide is made of silicon. 4. The optical device according to claim 3 , wherein the rib waveguide has a full thickness between about 200 nm and about 500 nm, and an etched part with a local thickness between about 50 nm and about 500 nm and with a width between about 200 nm and about 800 nm. 5. The optical device according to claim 3 , wherein the first directional coupler has a length between about 5 μm and about 200 μm, the second directional coupler has a length between about 5 μm and about 200 μm, and the Mach-Zehnder interferometer has a length between about 0.1 μm and about 2 μm. 6. An optical system comprising a first and a second optical device according to claim 1 , each having an input/output end, a secondary waveguide comprising a gain section intercalated between a first end, connected to the input/output end of the first optical device and a second end, a ring resonator intercalated between the second end of the secondary waveguide and the input/output end of the second optical device, and a heating means defined over the ring resonator and arranged for controlling a filter peak wavelength of the ring resonator and for selecting a laser optical mode. 7. An optical system comprising a first and a second optical device according to claim 1 , each having an input/output end, a secondary waveguide comprising a gain section intercalated between a first end, connected to the input/output end of the first optical device, and a second end, an intermediate waveguide comprising first and second ends, a first ring resonator with a wavelength spectral filtering and intercalated between the second end of the secondary waveguide and the first end of the intermediate waveguide for coupling the secondary waveguide to the intermediate waveguide, a first heating means defined over the first ring resonator and arranged for controlling a filter peak wavelength of the first ring resonator, a second ring resonator with a wavelength spectral filtering and intercalated between the second end of the intermediate waveguide and the input/output end of the second optical device, and a second heating means defined over the second ring resonator and arranged for controlling a filter peak wavelength of the second ring resonator. 8. The optical system according to claim 6 , wherein the first optical device is a reflector with a reflection coefficient between about 80% and about 100%, and the second optical device is a reflector with a reflection coefficient between about 10% and about 60% and comprising an output for delivering photons. 9. The optical device according to claim 6 , wherein the second optical device is a reflector with a reflection coefficient between about 80% and about 100%, and the first optical device is a reflector with a reflection coefficient between about 10% and about 60% and comprising an output for delivering photons. 10. The optical device according to claim 6 further comprising an integrated element selected from the group consisting of a semiconductor optical amplifier, a semiconductor electro absorption modulator, a silicon photonic modulator, a silicon photonic coherent mixer coupled to balanced photodiodes, and comprising an end connected to an output end of one of the first and second optical devices that is intended for delivering photons. 11. An optical system comprising at least two optical devices according to claim 1 and a reflective arrayed waveguide grating or an echelle grating comprising at least one input connected to an input waveguide, at least two outputs connected respectively to output waveguides and at least two inputs/outputs connected respectively to output ends of the optical devices via waveguides. 12. An optical device comprising a substrate on which is defined a primary waveguide and a secondary waveguide, each defining a loop reflector that includes first and second directional couplers, a Mach-Zehnder interferometer intercalated between the first and second directional couplers and arranged for compensating a wavelength dependence of the directional couplers, and an input/output end, wherein the secondary waveguide includes a gain section intercalated between a first end and connected to the input/output end of the first primary waveguide and a second end, a ring resonator intercalated between the second end of the secondary waveguide and the input/output end of the second primary waveguide, and a heater defined over the ring resonator and arranged for controlling a filter peak wavelength of the ring resonator and for selecting a laser optical mode. 13. The optical device according to claim 12 , wherein the first primary waveguide is a reflector with a reflection coefficient between about 80% and about 100%, and the second primary waveguide is a reflector with a reflection coefficient between about 10% and about 60% and comprising an output for delivering photons. 14. The optical device according to claim 12 , wherein the second primary waveguide is a reflector with a reflection coefficient between about 80% and about 100%, and the first primary waveguide is a reflector with a reflection coefficient between about 10% and about 60% and comprising an output for delivering photons. 15. The optical device according to claim 12 further comprising an integrated element selected from the group consisting of a semiconductor optical amplifier, a semiconductor electro absorption modulator, a silicon photonic modulator, a silicon photonic coherent mixer coupled to balanced photodiodes, and comprising an end connected to an output end of one of the first and second primary waveguides that is intended for delivering photons. 16. An optical device comprising a substrate on which is defined a primary waveguide and a secondary waveguide, each defining a loop reflector that includes first and second directional couplers, a Mach-Zehnder interferometer intercalated between the first and second directional couplers and arranged for compensating a wavelength dependence of the directional couplers, and an input/output end, wherein the secondary waveguide includes a gain section intercalated between a first end and connected to the input/output end of the first primary waveguide and a second end, an intermediate waveguide comprising first and second ends, a first ring resonator with a wavelength spectral filtering and intercalated between the second end of the secondary waveguide and the first end of the intermediate waveguide for coupling the secondary waveguide to the intermediate waveguide, a first heater defined over the first ring resonator and arranged for controlling a filter peak wavelength of the first ring resonator, a second ring resonator with a wavelength spectral filtering and intercalated between the second end of the intermediate waveguide and the input/output end of the second primary waveguid