IEICE TRANSACTIONS on Communications
Measurement of Spectral Transfer Matrix for DMD Analysis by Using Linear Optical Sampling
Summary :
Mode-by-mode impulse responses, or spectral transfer matrix (STM) of birefringent fibers are measured by using linear optical sampling, with assist of polarization multiplexed probe pulse. By using the eigenvalue analysis of the STM, the differential mode delay and PMD vector of polarization-maintaining fiber are analyzed as a function of optical frequency over 1THz. We show that the amplitude averaging of the complex impulse responses is effective for enhancing the signal-to-noise ratio of the measurement, resulting in improving the accuracy and expanding the bandwidth of the measurement.
- Publication
- IEICE TRANSACTIONS on Communications Vol.E103-B No.11 pp.1233-1239
- Publication Date
- 2020/11/01
- Publicized
- 2020/06/08
- Online ISSN
- 1745-1345
- DOI
- 10.1587/transcom.2019OBP0002
- Type of Manuscript
- Special Section PAPER (Joint Special Section on Opto-electronics and Communications for Future Optical Network)
- Category
Authors
Yuki OSAKA
Shimane University
Fumihiko ITO
Shimane University
Daisuke IIDA
NTT Corporation
Tetsuya MANABE
NTT Corporation
Keyword
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Yuki OSAKA, Fumihiko ITO, Daisuke IIDA, Tetsuya MANABE, "Measurement of Spectral Transfer Matrix for DMD Analysis by Using Linear Optical Sampling" in IEICE TRANSACTIONS on Communications,
vol. E103-B, no. 11, pp. 1233-1239, November 2020, doi: 10.1587/transcom.2019OBP0002.
Abstract: Mode-by-mode impulse responses, or spectral transfer matrix (STM) of birefringent fibers are measured by using linear optical sampling, with assist of polarization multiplexed probe pulse. By using the eigenvalue analysis of the STM, the differential mode delay and PMD vector of polarization-maintaining fiber are analyzed as a function of optical frequency over 1THz. We show that the amplitude averaging of the complex impulse responses is effective for enhancing the signal-to-noise ratio of the measurement, resulting in improving the accuracy and expanding the bandwidth of the measurement.
URL: https://global.ieice.org/en_transactions/communications/10.1587/transcom.2019OBP0002/_p
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@ARTICLE{e103-b_11_1233,
author={Yuki OSAKA, Fumihiko ITO, Daisuke IIDA, Tetsuya MANABE, },
journal={IEICE TRANSACTIONS on Communications},
title={Measurement of Spectral Transfer Matrix for DMD Analysis by Using Linear Optical Sampling},
year={2020},
volume={E103-B},
number={11},
pages={1233-1239},
abstract={Mode-by-mode impulse responses, or spectral transfer matrix (STM) of birefringent fibers are measured by using linear optical sampling, with assist of polarization multiplexed probe pulse. By using the eigenvalue analysis of the STM, the differential mode delay and PMD vector of polarization-maintaining fiber are analyzed as a function of optical frequency over 1THz. We show that the amplitude averaging of the complex impulse responses is effective for enhancing the signal-to-noise ratio of the measurement, resulting in improving the accuracy and expanding the bandwidth of the measurement.},
keywords={},
doi={10.1587/transcom.2019OBP0002},
ISSN={1745-1345},
month={November},}
Copy
TY - JOUR
TI - Measurement of Spectral Transfer Matrix for DMD Analysis by Using Linear Optical Sampling
T2 - IEICE TRANSACTIONS on Communications
SP - 1233
EP - 1239
AU - Yuki OSAKA
AU - Fumihiko ITO
AU - Daisuke IIDA
AU - Tetsuya MANABE
PY - 2020
DO - 10.1587/transcom.2019OBP0002
JO - IEICE TRANSACTIONS on Communications
SN - 1745-1345
VL - E103-B
IS - 11
JA - IEICE TRANSACTIONS on Communications
Y1 - November 2020
AB - Mode-by-mode impulse responses, or spectral transfer matrix (STM) of birefringent fibers are measured by using linear optical sampling, with assist of polarization multiplexed probe pulse. By using the eigenvalue analysis of the STM, the differential mode delay and PMD vector of polarization-maintaining fiber are analyzed as a function of optical frequency over 1THz. We show that the amplitude averaging of the complex impulse responses is effective for enhancing the signal-to-noise ratio of the measurement, resulting in improving the accuracy and expanding the bandwidth of the measurement.
ER -
English
