Wavelength combining using a arrayed waveguide grating having a switchable output
First Claim
1. A source of optical radiation, the source comprising:
- two or more laser sources, each having substantially the same source gain spectrum, said gain spectrum having a source gain bandwidth;
an arrayed waveguide grating coupler having two or more input ports and having two or more output ports, wherein each input port is bi-directionally optically coupled to a corresponding one of said laser sources;
wherein laser source radiation from all of said laser sources is coupled to a selected one of said output ports by said arrayed waveguide grating coupler, without substantial coupling of said laser source radiation to any other of said output ports;
wherein said selected output port provides a predetermined level of optical feedback of said laser source radiation to said input ports;
wherein said arrayed waveguide grating coupler is tunable such that said selected output port can be selected from any of said output ports.
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Abstract
Switchable power combining is provided using a tunable arrayed waveguide grating (AWG) as the combining element. The AWG has two or more inputs and two or more outputs. Each AWG input is bi-directionally coupled to a corresponding laser source, and each laser source has substantially the same gain spectrum. All sources are coupled to a selected one of the AWG outputs, without substantial coupling of the sources to any other AWG output. The AWG is tunable, such that any one of its outputs can be thus selected. The selected output provides optical feedback, thereby feedback stabilizing the emission wavelengths of the sources to values suitable for single-mode combining. According to a further aspect of the invention, a piezo-electrically tunable AWG is provided. The AWG has a piezo-electric transducer bonded to the waveguide array section of the AWG. Strain induced in the waveguide array by the transducer can alter optical path lengths of the waveguide, thereby tuning the AWG.
37 Citations
15 Claims
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1. A source of optical radiation, the source comprising:
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two or more laser sources, each having substantially the same source gain spectrum, said gain spectrum having a source gain bandwidth;
an arrayed waveguide grating coupler having two or more input ports and having two or more output ports, wherein each input port is bi-directionally optically coupled to a corresponding one of said laser sources;
wherein laser source radiation from all of said laser sources is coupled to a selected one of said output ports by said arrayed waveguide grating coupler, without substantial coupling of said laser source radiation to any other of said output ports;
wherein said selected output port provides a predetermined level of optical feedback of said laser source radiation to said input ports;
wherein said arrayed waveguide grating coupler is tunable such that said selected output port can be selected from any of said output ports. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A tunable optical filter comprising:
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a first star coupler having one or more input waveguides and coupled to a waveguide array having two or more waveguides;
a second star coupler coupled to said waveguide array and having one or more output waveguides, wherein said waveguides of said waveguide array have different lengths between said first star coupler and said second star coupler;
a slab of piezo-electric material bonded to said waveguide array, such that varying an electrical signal input to said piezo-electric material causes a corresponding variation in a mechanical strain of all or part of said waveguide array;
wherein said variation of said mechanical strain alters optical path lengths of said waveguides of said waveguide array, whereby tunability of wavelength responses from said one or more input waveguides to said one or more output waveguides is provided. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15)
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Specification
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- Resources
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Current AssigneeCollinear Corp.
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Original AssigneeCollinear Corp.
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InventorsMiller, Gregory, Arbore, Mark
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Application NumberUS11/904,775Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current372/20CPC Class CodesG02B 6/12011 characterised by the arraye...G02B 6/12019 characterised by the optica...G02B 6/12033 characterised by means for ...
