External optical modulator with domain inversion for providing constant chip versus frequency

1 N The invention relates to an external optical modulator comprising a Mach-Zehnder having a signal electrode including at least four sections of unequal length to one another positioned over an alternating domain structure in an electrooptic substrate, and including a center section, or center pai...

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Hauptverfasser:	Kissa, Karl, McBrien, Gregory J
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Sprache:	eng
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creator	Kissa, Karl McBrien, Gregory J
description	1 N The invention relates to an external optical modulator comprising a Mach-Zehnder having a signal electrode including at least four sections of unequal length to one another positioned over an alternating domain structure in an electrooptic substrate, and including a center section, or center pair of sections disposed asymmetrically between pairs surrounding sections. The surrounding pairs, comprise the two sections adjacent the center section or pair of sections, and each two sections adjacent the previous pair of sections, moving outwardly from the center to the final outermost pair, Land Lat the RF input and RF output . In each pair, the section lengths are equal, or the section closer to the RF output has a longer length than the section closer to the RF input . The surrounding pairs have lengths that decrease from the innermost pair to the outermost pair. For a zero chirp structure, the section lengths are selected to maintain an equivalent length for the inverted and uninverted domain sections. The present invention has found that constant chirp solutions can be found for all frequencies.
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The surrounding pairs, comprise the two sections adjacent the center section or pair of sections, and each two sections adjacent the previous pair of sections, moving outwardly from the center to the final outermost pair, Land Lat the RF input and RF output . In each pair, the section lengths are equal, or the section closer to the RF output has a longer length than the section closer to the RF input . The surrounding pairs have lengths that decrease from the innermost pair to the outermost pair. For a zero chirp structure, the section lengths are selected to maintain an equivalent length for the inverted and uninverted domain sections. 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The surrounding pairs, comprise the two sections adjacent the center section or pair of sections, and each two sections adjacent the previous pair of sections, moving outwardly from the center to the final outermost pair, Land Lat the RF input and RF output . In each pair, the section lengths are equal, or the section closer to the RF output has a longer length than the section closer to the RF input . The surrounding pairs have lengths that decrease from the innermost pair to the outermost pair. For a zero chirp structure, the section lengths are selected to maintain an equivalent length for the inverted and uninverted domain sections. 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The surrounding pairs, comprise the two sections adjacent the center section or pair of sections, and each two sections adjacent the previous pair of sections, moving outwardly from the center to the final outermost pair, Land Lat the RF input and RF output . In each pair, the section lengths are equal, or the section closer to the RF output has a longer length than the section closer to the RF input . The surrounding pairs have lengths that decrease from the innermost pair to the outermost pair. For a zero chirp structure, the section lengths are selected to maintain an equivalent length for the inverted and uninverted domain sections. The present invention has found that constant chirp solutions can be found for all frequencies.</abstract><oa>free_for_read</oa></addata></record>
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title	External optical modulator with domain inversion for providing constant chip versus frequency
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