Patent ID: 8218972
Filing Date: 2012-07-10
Classification: B82Y,H01L,H01S,H04J

Abstract:
1. A wavelength division multiplexing system, comprising: an array of wavelength-tunable lasers including at least two wavelength-tunable lasers emitting laser light at two mutually different resonant wavelengths, said array of wavelength-tunable lasers disposed at a first location; a first diffraction grating disposed to have laser light emitted by said at least two different wavelength-tunable lasers having at least two different wavelengths impinge upon said first diffraction grating, and to reflect the laser light impinging thereupon; an optical fiber with an input end disposed at a first location and an output end disposed at a second location being different from said first location, said optical fiber disposed to have the laser light reflected by said first diffraction grating impinge upon said input end, propagate in said optical fiber, and exit from said output end of said optical fiber; a second diffraction grating disposed to reflect the laser light having at least two different wavelengths impinging thereon; an array of photodetectors disposed at said second location, said array of photodetectors including a first photodetector and a second photodetector different from said first photodetector, said photodetectors disposed to receive the laser light reflected by said second diffraction grating, wherein the laser light having a first wavelength impinges on said first photodetector and laser light having a second wavelength impinges on said second photodetector; at least one reference wavelength-tunable laser for emitting light at a lasing wavelength, at least one reference resonant photodetector, and a wavelength stabilizing element disposed to direct at least part of the light emitted by said at least one reference wavelength-tunable laser to said at least one reference resonant photodetector, said at least one reference wavelength-tunable laser and said at least one reference resonant photodetector disposed at said first location; and a control unit for operating the system with wavelength stabilization, said control unit being configured to: a) apply a control parameter to said at least one reference wavelength-tunable laser for shifting the lasing wavelength of said at least one reference wavelength-tunable laser, b) observe a signal provided by the at least one reference resonant photodetector as a function of the shifted lasing wavelength of the at least one reference wavelength-tunable laser, c) fix and memorize a value of the control parameter and a corresponding optimum shift of the lasing wavelength of the at least one reference wavelength-tunable laser at which the signal provided by the at least one reference resonant photodetector reaches a maximum value, and d) set control parameters controlling the resonant wavelengths of the at least two wavelength-tunable lasers such that the resonant wavelengths of the at least two wavelength-tunable lasers shift an amount equal to the optimum shift of the lasing wavelength of the at least one reference wavelength-tunable laser; wherein said control unit is adapted to cause the at least two wavelength-tunable lasers to lase at preselected wavelengths by carrying out steps a) to d).