Analog phase noise compensation for coherent optical communication

The invention claimed is: 1. A noise compensation system, configured for compensating phase noise in coherent optical communications, the noise compensation system comprising: a transmitter comprising a pilot unit configured to provide a pilot tone comprising a pilot spectrum, wherein the transmitter is configured to transmit an information signal comprising an information spectrum, and wherein the transmitter corresponds to an optical transmitter and the pilot unit corresponds to a pilot lasing unit; a detecting unit comprising a local oscillator lasing unit configured to transmit a local oscillator signal, wherein the detecting unit is configured to combine the information signal with the local oscillator signal such that an input signal spectrum generated at an output of the detecting unit comprises information about phase noise in the information spectrum, wherein the transmitter is connectable to the detecting unit, wherein the transmitter further comprises a source unit and a modulator configured to modulate an emitting frequency of the source unit such that the information spectrum comprises a shifted copy of the pilot tone and the information signal is transmitted towards the detecting unit, wherein the modulator corresponds to an optical modulator comprising a Mach-Zehnder amplitude modulator and a control unit, and wherein the control unit is configured for bias control of the Mach-Zehnder amplitude modulator such that a predefined portion of light from the pilot lasing unit passes through the optical modulator; and a phase noise compensator comprising: a first branch configured to filter the pilot tone, and a second branch configured to mix the information signal with the filtered pilot tone, wherein the phase noise compensator is configured to output, after mixing and at an output of the phase noise compensator, an output signal spectrum based on the information about phase noise in the information spectrum, such that the output signal spectrum corresponds to a phase noise compensated copy of the pilot spectrum. 2. The noise compensation system of claim 1 : wherein the optical modulator comprises an optical filter configured to filter at least partly the information spectrum; and wherein the information signal is transmitted via an optical link towards the detecting unit. 3. The noise compensation system of claim 1 : wherein the optical transmitter further comprises: a first polarization maintaining splitter arranged between the pilot lasing unit and the optical modulator; and a second polarization maintaining splitter arranged at an output of the optical modulator; wherein the first and the second polarization maintaining splitters are connectable to each other. 4. A noise compensation system, configured for compensating phase noise in coherent optical communications, the noise compensation system comprising: a transmitter comprising a pilot unit configured to provide a pilot tone comprising a pilot spectrum, wherein the transmitter is configured to transmit an information signal comprising an information spectrum; a detecting unit comprising a local oscillator lasing unit configured to transmit a local oscillator signal, wherein the detecting unit is configured to combine the information signal with the local oscillator signal such that an input signal spectrum generated at an output of the detecting unit comprises information about phase noise in the information spectrum, wherein the detecting unit comprises a combiner and a photo detector, wherein the combiner is connectable to the photo detector, wherein the combiner corresponds to a polarization combiner configured to split two orthogonal polarization states to a first polarization splitter and to a second polarization splitter, wherein the photo detector comprises a first photo detector and a second photo detector, wherein the first polarization splitter and the first photo detector are arranged in a first branch of the detecting unit, and wherein the second polarization splitter and the second photo detector are arranged in a second branch of the detecting unit; and a phase noise compensator comprising: a first branch configured to filter the pilot tone, and a second branch configured to mix the information signal with the filtered pilot tone, wherein the phase noise compensator is configured to output, after mixing and at an output of the phase noise compensator, an output signal spectrum based on the information about phase noise in the information spectrum, such that the output signal spectrum corresponds to a phase noise compensated copy of the pilot spectrum, wherein the phase noise compensator comprises a first phase noise compensation unit and a second phase noise compensation unit, wherein the first phase noise compensation unit is arranged in the first branch of the detecting unit, wherein the second phase noise compensation unit is arranged in the second branch of the detecting unit, wherein the first polarization splitter and the first photo detector are connectable to the first phase noise compensation unit, and wherein the second polarization splitter and the second photo detector are connectable to the second phase noise compensation unit. 5. The noise compensation system of claim 4 , further comprising a summation unit configured to sum corresponding output signals from each of the first and the second phase noise compensation units such that the summed output signal spectrum corresponds to the phase noise compensated copy of the pilot spectrum. 6. The noise compensation system of claim 4 , wherein a physical length of the first branch of the phase noise compensator corresponds to a physical length of the second branch of the phase noise compensator such that during detection a time delay over the first branch of the phase noise compensator is equal to a time delay over the second branch of the phase noise compensator. 7. The noise compensation system of claim 4 : wherein the detecting unit further comprises a first amplifier configured to amplify an output signal of the photo detector; and wherein the first amplifier is connectable to the photo detector. 8. The noise compensation system of claim 7 : further comprising a second amplifier configured to amplify a signal at an output of the detecting unit; wherein the second amplifier is connectable to the phase noise compensator at a first end and to the detecting unit at a second end; and wherein the second end is different from the first end. 9. The noise compensation system of claim 8 , wherein the first branch of the phase noise compensator comprises a filter configured to filter the pilot tone and a third amplifier configured to amplify the filtered pilot tone. 10. The noise compensation system of claim 9 : wherein the second branch of the phase noise compensator comprises a mixing unit configured to mix the information signal with the filtered pilot tone; and wherein the third amplifier is connectable to the mixing unit. 11. The noise compensation system of claim 9 , wherein the filter comprises a bandpass filter configured to select a predefined frequency band around the pilot tone. 12. The noise compensation system of claim 1 , wherein a physical length of the first branch of the phase noise compensator corresponds to a physical length of the second branch of the phase noise compensator such that a time delay over the first branch of the phase noise compensator is equal to a time delay over the second branch of the phase noise compensator. 13. A method for compensating phase noise in coherent optical communications, the method comprising: providing