IRIS publication 160747006
Characterization of time-resolved laser differential phase using 3D complementary cumulative distribution functions
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TY - JOUR - Walsh, AJ,O'Dowd, JA,Bessler, VM,Shi, K,Smyth, F,Dailey, JM,Kelleher, B,Barry, LP,Ellis, AD - 2012 - January - Optics Letters - Characterization of time-resolved laser differential phase using 3D complementary cumulative distribution functions - Validated - () - 37 - 1769 - 1771 - An experimental method for characterizing the time-resolved phase noise of a fast switching tunable laser is discussed. The method experimentally determines a complementary cumulative distribution function of the laser's differential phase as a function of time after a switching event. A time resolved bit error rate of differential quadrature phase shift keying formatted data, calculated using the phase noise measurements, was fitted to an experimental time-resolved bit error rate measurement using a field programmable gate array, finding a good agreement between the time-resolved bit error rates. (C) 2012 Optical Society of America DA - 2012/01 ER -
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@article{V160747006,
= {Walsh, AJ and O'Dowd, JA and Bessler, VM and Shi, K and Smyth, F and Dailey, JM and Kelleher, B and Barry, LP and Ellis, AD },
= {2012},
= {January},
= {Optics Letters},
= {Characterization of time-resolved laser differential phase using 3D complementary cumulative distribution functions},
= {Validated},
= {()},
= {37},
pages = {1769--1771},
= {{An experimental method for characterizing the time-resolved phase noise of a fast switching tunable laser is discussed. The method experimentally determines a complementary cumulative distribution function of the laser's differential phase as a function of time after a switching event. A time resolved bit error rate of differential quadrature phase shift keying formatted data, calculated using the phase noise measurements, was fitted to an experimental time-resolved bit error rate measurement using a field programmable gate array, finding a good agreement between the time-resolved bit error rates. (C) 2012 Optical Society of America}},
source = {IRIS}
}Data as stored in IRIS
| AUTHORS | Walsh, AJ,O'Dowd, JA,Bessler, VM,Shi, K,Smyth, F,Dailey, JM,Kelleher, B,Barry, LP,Ellis, AD | ||
| YEAR | 2012 | ||
| MONTH | January | ||
| JOURNAL_CODE | Optics Letters | ||
| TITLE | Characterization of time-resolved laser differential phase using 3D complementary cumulative distribution functions | ||
| STATUS | Validated | ||
| TIMES_CITED | () | ||
| SEARCH_KEYWORD | |||
| VOLUME | 37 | ||
| ISSUE | |||
| START_PAGE | 1769 | ||
| END_PAGE | 1771 | ||
| ABSTRACT | An experimental method for characterizing the time-resolved phase noise of a fast switching tunable laser is discussed. The method experimentally determines a complementary cumulative distribution function of the laser's differential phase as a function of time after a switching event. A time resolved bit error rate of differential quadrature phase shift keying formatted data, calculated using the phase noise measurements, was fitted to an experimental time-resolved bit error rate measurement using a field programmable gate array, finding a good agreement between the time-resolved bit error rates. (C) 2012 Optical Society of America | ||
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