Optical measuring device having photonic chip with interferometer and phase adjuster set for minimizing signal from interference region

The invention claimed is: 1. An optical measuring device for measuring a measurement region, the optical device comprising: a photonic chip with an interferometer defined on said chip, said interferometer comprising: a first waveguide; a second waveguide; and an interference region, wherein the first and second waveguides carry signals from the interference region to the measurement region and back to the interference region, a signal in the first waveguide being reflected back to the interference region from a first region of the measurement region and a signal in the second waveguide being reflected back to the interference region from a second region of the measurement region, the optical device being configured to measure an optically activated quantum emitter in the measurement region such that the quantum emitter is coupled to one of the first or second waveguide, the optical device further comprising: a phase adjuster configured to provide a phase difference between the signals in the first and second waveguides reflected by the measurement region, wherein the phase adjuster includes one of: a heating element configured to heat a part of at least one of the first and second waveguides, a strain inducing element configured to apply a force to a part of at least one of the first and second waveguides, and an electric field generator configured to apply an electric field to a part of at least one of the first and second waveguides; a controller, configured to control the phase adjuster; and an output waveguide defined on said photonic chip and configured to carry a signal from the interference region after it has been reflected by the measurement region, the amount of signal transferred to the output waveguide being controlled by the phase adjuster and the controller, the phase adjuster and the controller being configured to set a phase difference between the signals in the first and second waveguide to minimize the signal transferred from the input waveguide to the output waveguide such that a signal from the quantum emitter can be observed, and the optical measuring device further comprising a positioning stage configured to align the optically activated quantum emitter to interact with light from the first or second waveguide. 2. An optical measuring device according to claim 1 , further comprising: an input waveguide adapted to pass a light signal to said interference region such that the light signal propagates along the first and second waveguides after the interference region. 3. An optical measuring device according to claim 1 , wherein a detector is provided to receive the output from the output waveguide. 4. An optical measuring device according to claim 1 , wherein the measurement region comprises a sample having a surface, and wherein the surface of the sample is orthogonal to the direction of travel of the signal in the first and second waveguides. 5. An optical measuring device according to claim 1 , wherein the first and second waveguides are single mode waveguides. 6. An optical measuring device according to claim 1 , wherein a light source is attached to the input waveguide. 7. An optical measuring device according to claim 1 , wherein the phase adjuster on said photonic chip is a heating element configured to heat part of the first and/or second waveguide. 8. An optical measuring device according to claim 1 , wherein the light signal provided from the input waveguide is at an energy that can excite the quantum emitter. 9. An optical measuring device according to claim 8 , wherein the output waveguide is coupled to a further photonic circuit. 10. An optical measuring system comprising: a first optical measuring device; and a second optical measuring device, the first optical measuring device comprising the optical measuring device of claim 8 and the second optical measuring device comprising the optical measuring device of claim 8 , wherein the output guide of the first optical measuring device and the output guide of the second optical measuring device are coupled at a coupler. 11. An optical measuring device for measuring a measurement region, the optical device comprising: a photonic chip with an interferometer defined on said chip, said interferometer comprising: a first waveguide; a second waveguide; and an interference region; wherein the first and second waveguides carry signals from the interference region to the measurement region and back to the interference region, a signal in the first waveguide being reflected back to the interference region from a first region of the measurement region and a signal in the second waveguide being reflected back to the interference region from a second region of the measurement region; the optical device further comprising: a phase adjuster configured to provide a phase difference between the signals in the first and second waveguides reflected by the measurement region, wherein the phase adjuster includes one of: a heating element configured to heat a part of at least one of the first and second waveguides, a strain inducing element configured to apply a force to a part of at least one of the first and second waveguides, and an electric field generator configured to apply an electric field to a part of at least one of the first and second waveguides; a controller, configured to control the phase adjuster; an output waveguide defined on said photonic chip and configured to carry a signal from the interference region after it has been reflected by the measurement region, the amount of signal transferred to the output waveguide being controlled by the phase adjuster and the controller, the controller being configured to control the phase adjuster to minimize the output signal in the output waveguide, wherein the controller is further configured to determine the phase adjustment applied for minimizing the signal in the output waveguide. 12. A method of performing an optical measurement of a measurement region, the method comprising: providing an optical measuring device comprising a photonic chip with an interferometer defined on said chip, said interferometer comprising a first waveguide, a second waveguide and an interference region; passing signals from the interference region via said first and second waveguides to the measurement region and back to the interference region via the first and second waveguides, a signal in the first waveguide being reflected back to the interference region from a first region of the measurement region and a signal in the second waveguide being reflected back to the interference region from a second region of the measurement region; passing a signal from the interference region after it has been reflected by the measurement region along an output waveguide defined on said photonic chip; varying a phase difference between the signals in the first and second single waveguides reflected by the measurement region to minimize the output signal in the output waveguide; and determining the phase adjustment applied for minimizing the signal in the output waveguide. 13. A method of performing an optical measurement of a measurement region, the method comprising: providing an optical measuring device comprising a photonic chip with an interferometer defined on said chip, said interferometer comprising a first waveguide, a second waveguide and an interference region, the optical device being configured to measure an optically activated quantum emitter in the measurement region such that said quantum emitter is coupled to one of the first or second waveguide; aligning the optically activated quantum emitter to interact with light fro