Optical waveguide (TE,TM) mode converter
First Claim
1. Mode converter for the conversion of a fraction of a signal component of an optical signal propagating according to a first guided mode into a signal component propagating according to a second guided mode, comprising a channel-type waveguide in which a periodic coupling between the two guided modes of an optical signal propagating in the waveguide takes place, which waveguide comprises an incoming wave-guiding section, an intermediate wave-guiding section and an outgoing wave-guiding section, characterized in that the intermediate wave-guiding section has a periodic geometrical structure consisting of a periodic sequence of two wave-guiding subsections within a period length, the lengths of the subsections and the number of periods being matched to the desired conversion fraction.
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Accused Products
Abstract
Mode converter for converting a fraction of one guided mode of an optical signal in an incoming optical waveguide section (A) into another guided mode in an outgoing wave-guiding section (C) by means of a periodic coupling between both guided modes in an intermediate optical waveguide section (B). The intermediate section (B) has a periodic geometrical structure as a result of an N-fold periodic sequence of two light-guiding subsections (P, Q) within a period length (LP +LQ). The sequence can be obtained by arranging for the waveguide profiles of the subsections to differ from one another, preferably as a result of differences in width. The sequence can also be obtained by offset joining of the two subsections with the same waveguide profiles. Advantages are: the high degree of integrability, the ability to co-integrate a laser light source in an optical section of a coherent optical receiver and the achievement of a new integrated design of such an optical section, which design is free of metallized elements.
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Citations
27 Claims
- 1. Mode converter for the conversion of a fraction of a signal component of an optical signal propagating according to a first guided mode into a signal component propagating according to a second guided mode, comprising a channel-type waveguide in which a periodic coupling between the two guided modes of an optical signal propagating in the waveguide takes place, which waveguide comprises an incoming wave-guiding section, an intermediate wave-guiding section and an outgoing wave-guiding section, characterized in that the intermediate wave-guiding section has a periodic geometrical structure consisting of a periodic sequence of two wave-guiding subsections within a period length, the lengths of the subsections and the number of periods being matched to the desired conversion fraction.
- 12. Mode converter for the conversion of a fraction of a signal component of an optical signal propagating according to a first guided mode into a signal component propagating according to a second guided mode, comprising a channel-type waveguide in which a periodic coupling between the two guided modes of an optical signal propagating in the waveguide takes place, which waveguide comprises an incoming wave-guiding section, an intermediate wave-guiding section and an outgoing wave-guiding section, characterized in that the intermediate wave-guiding section has a periodic geometrical structure consisting of a periodic sequence of two wave-guiding subsections within a period length with different waveguide profiles essentially as a result of differences in width, the lengths of the subsections and the number of periods being matched to the desired conversion fraction.
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22. Optical input section for a coherent optical receiver based on polarization diversity, comprising
mixing/splitting means for the polarization-independent equal mixing of a first optical signal received via an incoming optical channel and containing polarization modes (TE, TM), and a second optical signal originating from a local light source and containing polarization modes (TE, TM) and then splitting equally in terms of power into first and second mixed signals, first and second splitting means for the respective splitting up of polarization modes present in the first and second mixed signals into separate optical signals for presentation to equally as many outgoing optical channels, characterized in that first and second conversion means are furthermore provided for converting at least a fraction of one of the polarization modes into a guided mode different in order from that in which the polarization modes mentioned propagate in the first optical signal and the second optical signal, respectively; in that the mixing/splitting means comprise a multimode power coupler; and
in that the first and second splitting means are mode splitters.- View Dependent Claims (23)
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24. Combined mode converter/splitter for converting a fraction of a first signal component of an incoming first optical signal propagating in a first polarization mode (TE or TM) into a second signal component propagating in a second polarization mode (TM or TE), and the emission of second and third optical signals respectively via outgoing second and third monomodal optical waveguides, the second optical signal essentially containing the second signal component and the third optical signal essentially containing the unconverted part of the first optical signal, which converter/splitter consecutively comprises between the first optical waveguide and the second and third optical waveguides:
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a tapered piece for the transition of a monomodal to a bimodal optical waveguide, conversion means for converting at least a fraction of the first signal component into a guided mode differing in order from that in which the first signal component propagates in the first optical signal on leaving the tapered piece, and a mode splitter. - View Dependent Claims (25, 26, 27)
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Specification