Device and system for phase conjugate conversion and wavelength conversion
First Claim
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1. A device comprising:
- an optical circulator having first, second, and third ports, said first port being supplied with signal light including first and second polarization components respectively having first and second polarization planes orthogonal to each other, and with pump light;
a polarization beam splitter having fourth, fifth, and sixth ports, said fourth port being optically connected to said second port, said fourth and fifth ports being coupled by said first polarization plane, said fourth and sixth ports being coupled by said second polarization plane; and
a polarization maintaining fiber having first and second ends, and having a polarization mode to be maintained between said first and second ends, said first end being optically connected to said fifth port so that said first polarization plane is adapted to said polarization mode, said second end being optically connected to said sixth port so that said second polarization plane is adapted to said polarization mode.
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Abstract
The device according to the present invention relates to phase conjugate conversion and wavelength conversion. This device includes a polarization beam splitter and a polarization maintaining fiber (PMF). The polarization beam splitter has first, second, and third ports. The first port is supplied with signal light including first and second polarization components respectively having first and second polarization planes orthogonal to each other, and with pump light. The first and second ports are coupled by the first polarization plane, and the first and third ports are coupled by the second polarization plane. The PMF has first and second ends, and has a polarization mode to be maintained between the first and second ends. The first end is optically connected to the second port so that the first polarization plane is adapted to the polarization mode, and the second end is optically connected to the third port so that the second polarization plane is adapted to the polarization mode. Converted light generated by four-wave mixing based on the signal light and the pump light in the PMF is output from the first port, so that the converted light can be taken out by an optical circulator.
28 Citations
33 Claims
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1. A device comprising:
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an optical circulator having first, second, and third ports, said first port being supplied with signal light including first and second polarization components respectively having first and second polarization planes orthogonal to each other, and with pump light;
a polarization beam splitter having fourth, fifth, and sixth ports, said fourth port being optically connected to said second port, said fourth and fifth ports being coupled by said first polarization plane, said fourth and sixth ports being coupled by said second polarization plane; and
a polarization maintaining fiber having first and second ends, and having a polarization mode to be maintained between said first and second ends, said first end being optically connected to said fifth port so that said first polarization plane is adapted to said polarization mode, said second end being optically connected to said sixth port so that said second polarization plane is adapted to said polarization mode. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A device comprising:
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a polarization beam splitter having first, second, and third ports, said first port being supplied with signal light including first and second polarization components respectively having first and second polarization planes orthogonal to each other, and with pump light, said first and second ports being coupled by said first polarization plane, said first and third ports being coupled by said second polarization plane; and
a polarization maintaining fiber having first and second ends, and having a polarization mode to be maintained between said first and second ends, said first end being optically connected to said second port so that said first polarization plane is adapted to said polarization mode, said second end being optically connected to said third port so that said second polarization plane is adapted to said polarization mode;
wherein said polarization mode to be maintained by said polarization maintaining fiber is given by a predetermined principal axis;
said first polarization plane of said signal light in said second port includes said predetermined principal axis; and
said second polarization plane of said signal light in said third port includes said predetermined principal axis.
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12. A device, comprising:
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a polarization beam splitter having first, second, and third ports, said first port being supplied with signal light including first and second polarization components respectively having first and second polarization planes orthogonal to each other, with pump light, said first and second ports being coupled by said first polarization plan, said first and third ports being coupled by said second polarization plane;
a polarization maintaining fiber having first and second ends, and having a polarization mode to be maintained between said first and second ends, said first end being optically connected to said second port so that said first polarization plane is adapted to said polarization mode, said second end being optically connected to said third port so that said second polarization plane is adapted to said polarization mode; and
an optical circulator optically connected to said first port of said polarization beam splitter.
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13. A device, comprising:
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polarization beam splitter having first, second, and third ports, said first port being supplied with signal light including first and second polarization components respectively having first and second polarization planes orthogonal to each other, with pump light, said first and second ports being coupled by said first polarization plan, said first and third ports being coupled by said second polarization plane; and
a polarization maintaining fiber having first and second ends, and having a polarization mode to be maintained between said first and second ends, said first end being optically connected to said second port so that said first polarization plane is adapted to said polarization mode, said second end being optically connected to said third port so that said second polarization plane is adapted to said polarization mode; and
wherein said polarization maintaining fiber has a substantially constant zero-dispersion wavelength in relation to said polarization mode, and said pump light has a wavelength substantially equal to said zero-dispersion wavelength.
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14. A system comprising:
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first and second optical fiber networks each adapted to wavelength division multiplexing; and
a converter connected between said first and second optical fiber networks, said converter converting signal light into converted signal light by nonlinear optical effect based on said signal light and pump light, wherein said converter comprises;
a pumping source for outputting pump light;
an optical circulator having first, second, and third ports, said first port being supplied with signal light including first and second polarization components respectively having first and second polarization planes orthogonal to each other, and with said pump light;
a polarization beam splitter having fourth, fifth, and sixth ports, said fourth port being optically connected to said second port, said fourth and fifth ports being coupled by said first polarization plane, said fourth and sixth ports being coupled by said second polarization plane; and
a polarization maintaining fiber having first and second ends, and having a polarization mode to be maintained between said first and second ends, said first end being optically connected to said fifth port so that said first polarization plane is adapted to said polarization mode, said second end being optically connected to said sixth port so that said second polarization plane is adapted to said polarization mode. - View Dependent Claims (15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25)
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26. A device comprising:
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a polarization beam splitter having first, second, and third ports, said first and second ports being coupled by a first polarization plane, said first and third ports being coupled by a second polarization plane orthogonal to said first polarization plane; and
a polarization maintaining fiber having first and second ends, the first end connected to the second port and the second end connected to the third port, and having a polarization mode to be maintained between said first and second ends, said polarization maintaining fiber being supplied with signal light including first and second polarization components respectively having said first and second polarization planes, and with pump light;
said signal light being converted into converted signal light by nonlinear optical effect based on said signal light and pump light in said polarization maintaining fiber;
wherein said polarization mode to be maintained by said polarization maintaining fiber is given by a predetermined principal axis;
said first polarization plane of said signal light in said second port includes said predeterminged principal axis; and
said second polarization plane of said signal light in said third port includes said predetermined principal axis.
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27. A system comprising:
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first and second optical fiber networks each adapted to wavelength division multiplexing; and
a converter connected between said first and second optical fiber networks, said converter converting signal light into converted signal light by nonlinear optical effect based on said signal light and pump light, wherein said signal light is WDM signal light obtained by wavelength division multiplexing a plurality of optical signals having different wavelengths and arranged at unequal intervals, wherein a set of said first and second optical fiber networks has normal or anomalous dispersion, a zero dispersion point of one of said first and second optical fiber networks is near a wavelength of said pumping light, a zero dispersion point of the other of said first and second optical networks is farther from the wavelength of said pumpling light than the zero dispersion point of the one of said first and second optical networks, and influences of dispersion are substantially equal between near center channels of said first and second optical fiber networks.
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28. A system comprising:
first and second optical fiber networks each adapted to wavelength division multiplexing wherein;
said first optical fiber network includes a first fiber span for transmitting said signal light; and
said second optical fiber network includes a second fiber span for transmitting said converted signal light; and
a converter connected between said first and second optical fiber networks, said converter converting signal light into converted signal light by nonlinear optical effect based on said signal light and pump light;
wherein when each of said first and second fiber spans is virtually divided into the same number of sections, the product of the average of chromatic dispersions of a first one of said sections of said first fiber span and the length of said first one is substantially equal to the product of the average of chromatic dispersions of a second one of said sections of said second fiber span and the length of said second one, said first and second ones corresponding to each other in order as counted according to distance from said converter, and the product of the average of optical powers in said first one, the average of nonlinear coefficients in said first one, and the length of said first one is substantially equal to the product of the average of optical powers in said second one, the average of nonlinear coefficients in said second one, and the length of said second one.
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29. A system comprising:
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first and second optical fiber networks each adapted to wavelength division multiplexing wherein;
said first optical fiber network includes a first fiber span for transmitting said signal light; and
said second optical fiber network includes a second fiber span for transmitting said converted signal light; and
a converter connected between said first and second optical fiber networks, said converter converting signal light into converted signal light by nonlinear optical effect based on said signal light and pump light;
wherein;
when each of said first and second fiber spans is virtually divided into the same number of a plurality of sections, the ratio of the product of an optical power and a nonlinear coefficient to a chromatic dispersion at a first one of said plurality of said sections of said first fiber span is substantially equal to the ratio of the product of an average of the optical power and an average of a nonlinear coefficient to a chromatic dispersion in a second one of said plurality of said sections of said second fiber span;
an accumulated value of chromatic dispersions measured from said converter to said first point being equal to an accumulated value of chromatic dispersions measured from said converter to said second point on said second one; and
said first and second ones corresponding to each other in order as counted according to distance from said converter.
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30. A system comprising:
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first and second optical fiber networks each adapted to wavelength division multiplexing wherein;
said first optical fiber network includes a first fiber span for transmitting said signal light; and
said second optical fiber network includes a second fiber span for transmitting said converted signal light; and
a converter connected between said first and second optical fiber networks, said converter converting signal light into converted signal light by nonlinear optical effect based on said signal light and pump light;
wherein;
when each of said first and second fiber spans is virtually divided into the same number of a plurality of sections, the ratio of the product of an optical power and a nonlinear coefficient to a chromatic dispersion at a first point on said first one of said plurality of said sections of said first fiber span is substantially equal to the ratio of the product of an optical power and a nonlinear coefficient to a chromatic dispersion at a second point on a second one of said plurality of said sections of said second fiber span;
an accumulated value of the products of optical powers and nonlinear coefficients measured from said converter to said first point being equal to an accumulated value of the products of optical powers and nonlinear coefficients measured from said converter to said second point on said second one; and
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31. A system comprising:
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first and second optical fiber networks each adapted to wavelength division multiplexing wherein;
said first optical fiber network includes a first fiber span for transmitting said signal light; and
said second optical fiber network includes a second fiber span for transmitting said converted signal light; and
a converter connected between said first and second optical fiber networks, said converter converting signal light into converted signal light by nonlinear optical effect based on said signal light and pump light;
wherein when each of said first and second fiber spans is virtually divided into the same number of a plurality of sections, the product of the average of chromatic dispersions of a second one of said plurality of said sections of and the length of said second one; and
said first and second ones corresponding to each other in order as counted according to distance from said converter.
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32. A system comprising:
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first and second optical fiber networks each adapted to wavelength division multiplexing wherein;
said first optical fiber network includes a first fiber span for transmitting said signal light; and
said second optical fiber network includes a second fiber span for transmitting said converted signal light; and
a converter connected between said first and second optical fiber networks, said converter converting signal light into converted signal light by nonlinear optical effect based on said signal light and pump light;
wherein when each of said first and second fiber spans is virtually divided into the same number of a plurality of sections, the product of the average of optical powers in a first one of said plurality of said first fiber span, the average of nonlinear coefficients in said first one, and the length of said first one is substantially equal to the product of the average of optical powers in said second one of said plurality of said sections of said second first fiber, the average of nonlinear coefficients in said second one, and the length of said second one; and
said first and second ones corresponding to each other in order as counted according to distance from said converter.
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33. A device comprising:
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a polarization beam splitter having first, second, and third ports, said first port being supplied with signal light including first and second polarization components respectively having first and second polarization planes orthogonal to each other, and with pump light, said first and second ports being coupled by said first polarization plane, said first and third ports being coupled by said second polarization plane; and
a polarization maintaining fiber having first and second ends, and having a polarization mode to be maintained between said first and second ends, said first end being optically connected to said second port so that said first polarization plane is adapted to said polarization mode, said second end being optically connected to said third port so that said second polarization plane is adapted to said polarization mode; and
wherein signal light having said first polarization plane inputted to said first port is outputted from said first and second end, the second light outputted from said second end is outputted from said first port through said polarization beam splitter, signal light having said second polarization plane inputted to said first port is outputted from said first end, and the signal light outputted from said first end is outputted from said first port through said polarization beam splitter.
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Specification
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Current AssigneeFujitsu Limited
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Original AssigneeFujitsu Limited
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InventorsWatanabe, Shigeki
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Primary Examiner(s)Stafira, Michael P.
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Assistant Examiner(s)Mooney, Michael P
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Application NumberUS09/386,847Time in Patent Office2,443 DaysField of Search385/15, 385/10, 385/24, 385/27, 385/31, 385/33, 385 37- 39, 385/46, 385/42, 385/11, 385/122, 359/326, 359/174, 359/337, 359/332, 359/133, 359/180, 359/188, 359/124US Class Current385/11CPC Class CodesG02F 1/3538 for optical phase conjugati...H04B 10/2531 using spectral inversionH04B 10/255 Self-phase modulation [SPM]
