System for transmitting information on interferometrically generated optical carriers
First Claim
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1. An optical transmitter, comprising:
- means for generating a sinusoidal drive signal;
means for modulating said drive signal with an information signal;
a semiconductor laser;
means for applying said modulated drive signal and a DC bias signal to said laser for modulating said laser, wherein the modulated output spectrum from said laser has both frequency modulated components and amplitude modulated components;
interferometric means for splitting said laser output signal into two separate light beams which subsequently travel over respective path lengths having an optical path difference therebetween before being combined into an output signal; and
means for adjusting said optical path difference to a selected value such that the output signal from said interferometric means is due solely to frequency modulated components at either even harmonics or odd harmonics of said modulated drive signal in accordance with said selected path difference, said harmonics being at frequencies which are much greater than the bandwidth of said laser.
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Abstract
A method of generating high power optical signals in the 1-100 GHz frequency range uses a frequency modulated semiconductor laser and an interferometer. This method is especially useful for microwave carrier frequency optical communications, distribution of microwave frequency local oscillator signals, and the generation of sinusoidal optical modulation at frequencies that cannot be reached by direct modulation in semiconductor lasers or with external module lasers.
32 Citations
5 Claims
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1. An optical transmitter, comprising:
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means for generating a sinusoidal drive signal; means for modulating said drive signal with an information signal; a semiconductor laser; means for applying said modulated drive signal and a DC bias signal to said laser for modulating said laser, wherein the modulated output spectrum from said laser has both frequency modulated components and amplitude modulated components; interferometric means for splitting said laser output signal into two separate light beams which subsequently travel over respective path lengths having an optical path difference therebetween before being combined into an output signal; and means for adjusting said optical path difference to a selected value such that the output signal from said interferometric means is due solely to frequency modulated components at either even harmonics or odd harmonics of said modulated drive signal in accordance with said selected path difference, said harmonics being at frequencies which are much greater than the bandwidth of said laser. - View Dependent Claims (2, 3)
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4. A method of upconverting a baseband information signal to a high frequency carrier in an optical transmission system, comprising the steps of:
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modulating a drive signal with said information signal; applying said modulated drive signal and a DC bias signal to a semiconductor laser for modulating said laser, thereby providing a laser output signal having both frequency modulated and amplitude modulated components; applying said laser output signal to an interferometer for splitting said laser signal into two beams that traverse separate pathways having an optical path difference therebetween before said beams are combined into an output signal; and adjusting said optical path difference to a selected value such that the output signal from said interferometer is due solely to frequency modulated components at either even or odd harmonics of said modulated drive signal in accordance with said selected path difference, said harmonics being at frequencies which are much greater than the modulation bandwidth of said laser.
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5. An optical communication system, comprising:
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means for generating a sinusoidal drive signal; means for modulating said drive signal with an information signal; a semiconductor laser; means for applying said modulated drive signal and a DC bias signal to said laser for modulating said laser, wherein the modulated output spectrum from said laser has both frequency modulated components and amplitude modulated components; interferometric means for splitting said laser output signal into two separate light beams which subsequently travel over respective path lengths having an optical path difference therebetween before being combined into an output signal; means for adjusting said optical path difference to a selected value such that the output signal from said interferometric means is due solely to frequency modulated components at either even harmonics or odd harmonics of said modulated drive signal in accordance with said selected path difference, said harmonics being at frequencies which are much greater than the bandwidth of said laser; optical transport means coupled at one end to said interferometric means for receiving said optical harmonic spectrum; an optical detector coupled to the other end of said optical transport means wherein said harmonic spectrum is delivered to said detector for generating a photocurrent; a bandpass filter receiving said photocurrent and filtering out all but a selected harmonic from said harmonic spectrum; a limiter for removing spurious amplitude variations from aaid selected harmonic signal; and a delay line discriminator coupled to said limiter from which said information signal is provided.
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Specification
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Current AssigneeVerizon Laboratories Incorporated (Verizon Communications Inc.)
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Original AssigneeGTE Laboratories Incorporated (Lumen Technologies, Inc.)
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InventorsEichen, Elliot G.
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Primary Examiner(s)Orsino, Joseph A.
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Assistant Examiner(s)Beek, L. Van
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Application NumberUS07/203,661Time in Patent Office1,106 DaysField of Search455/618, 455/609, 455/612, 455/617, 455/610, 455/611, 455/619US Class Current398/201CPC Class CodesG01R 23/17 with optical or acoustical ...H01S 5/0622 Controlling the frequency o...
