2.5 Gb/s transmission over 680 km using a fully stabilized 20 channel DBR laser with monolithically integrated semiconductor optical amplifier, photodetector and electroabsorption modulator

L. J.P. Ketelsen; J. E. Johnson; D. A. Ackerman; L. Zhang; K. K. Kamath; M. S. Hybertsen; K. G. Glogovsky; M. W. Focht; W. A. Asous; C. L. Reynolds; C. W. Ebert; M. Park; C. W. Lentz; R. L. Hartman; T. L. Koch

2.5 Gb/s transmission over 680 km using a fully stabilized 20 channel DBR laser with monolithically integrated semiconductor optical amplifier, photodetector and electroabsorption modulator

L. J.P. Ketelsen
, J. E. Johnson
, D. A. Ackerman
, L. Zhang
, K. K. Kamath
, M. S. Hybertsen
, K. G. Glogovsky
, M. W. Focht
, W. A. Asous
, C. L. Reynolds
, C. W. Ebert
, M. Park
, C. W. Lentz
, R. L. Hartman
, T. L. Koch

Research output: Contribution to conference › Paper › peer-review

Abstract

A fully functional 2.5 Gb/s EA-modulated wavelength-selectable laser module based on a highly integrated InP chip is characterized. Power penalty for transmission over 680 km of conventional single-mode fiber of <0.5 dB, average output power >0 dBm, and linewidth <9 MHz is shown on all 20 channels.

Original language	English (US)
Pages	208-210
Number of pages	3
State	Published - 2000
Externally published	Yes
Event	Optical Fiber Communication Conference - Baltimore, MD, USA Duration: Mar 7 2000 → Mar 10 2000

Other

Other	Optical Fiber Communication Conference
City	Baltimore, MD, USA
Period	3/7/00 → 3/10/00

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Electrical and Electronic Engineering

Cite this

Ketelsen, L. J. P., Johnson, J. E., Ackerman, D. A., Zhang, L., Kamath, K. K., Hybertsen, M. S., Glogovsky, K. G., Focht, M. W., Asous, W. A., Reynolds, C. L., Ebert, C. W., Park, M., Lentz, C. W., Hartman, R. L., & Koch, T. L. (2000). 2.5 Gb/s transmission over 680 km using a fully stabilized 20 channel DBR laser with monolithically integrated semiconductor optical amplifier, photodetector and electroabsorption modulator. 208-210. Paper presented at Optical Fiber Communication Conference, Baltimore, MD, USA.

2.5 Gb/s transmission over 680 km using a fully stabilized 20 channel DBR laser with monolithically integrated semiconductor optical amplifier, photodetector and electroabsorption modulator. / Ketelsen, L. J.P.; Johnson, J. E.; Ackerman, D. A. et al.
2000. 208-210 Paper presented at Optical Fiber Communication Conference, Baltimore, MD, USA.

Research output: Contribution to conference › Paper › peer-review

Ketelsen, LJP, Johnson, JE, Ackerman, DA, Zhang, L, Kamath, KK, Hybertsen, MS, Glogovsky, KG, Focht, MW, Asous, WA, Reynolds, CL, Ebert, CW, Park, M, Lentz, CW, Hartman, RL & Koch, TL 2000, '2.5 Gb/s transmission over 680 km using a fully stabilized 20 channel DBR laser with monolithically integrated semiconductor optical amplifier, photodetector and electroabsorption modulator', Paper presented at Optical Fiber Communication Conference, Baltimore, MD, USA, 3/7/00 - 3/10/00 pp. 208-210.

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title = "2.5 Gb/s transmission over 680 km using a fully stabilized 20 channel DBR laser with monolithically integrated semiconductor optical amplifier, photodetector and electroabsorption modulator",

abstract = "A fully functional 2.5 Gb/s EA-modulated wavelength-selectable laser module based on a highly integrated InP chip is characterized. Power penalty for transmission over 680 km of conventional single-mode fiber of <0.5 dB, average output power >0 dBm, and linewidth <9 MHz is shown on all 20 channels.",

author = "Ketelsen, \{L. J.P.\} and Johnson, \{J. E.\} and Ackerman, \{D. A.\} and L. Zhang and Kamath, \{K. K.\} and Hybertsen, \{M. S.\} and Glogovsky, \{K. G.\} and Focht, \{M. W.\} and Asous, \{W. A.\} and Reynolds, \{C. L.\} and Ebert, \{C. W.\} and M. Park and Lentz, \{C. W.\} and Hartman, \{R. L.\} and Koch, \{T. L.\}",

year = "2000",

language = "English (US)",

pages = "208--210",

note = "Optical Fiber Communication Conference ; Conference date: 07-03-2000 Through 10-03-2000",

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TY - CONF

T1 - 2.5 Gb/s transmission over 680 km using a fully stabilized 20 channel DBR laser with monolithically integrated semiconductor optical amplifier, photodetector and electroabsorption modulator

AU - Ketelsen, L. J.P.

AU - Johnson, J. E.

AU - Ackerman, D. A.

AU - Zhang, L.

AU - Kamath, K. K.

AU - Hybertsen, M. S.

AU - Glogovsky, K. G.

AU - Focht, M. W.

AU - Asous, W. A.

AU - Reynolds, C. L.

AU - Ebert, C. W.

AU - Park, M.

AU - Lentz, C. W.

AU - Hartman, R. L.

AU - Koch, T. L.

PY - 2000

Y1 - 2000

N2 - A fully functional 2.5 Gb/s EA-modulated wavelength-selectable laser module based on a highly integrated InP chip is characterized. Power penalty for transmission over 680 km of conventional single-mode fiber of <0.5 dB, average output power >0 dBm, and linewidth <9 MHz is shown on all 20 channels.

AB - A fully functional 2.5 Gb/s EA-modulated wavelength-selectable laser module based on a highly integrated InP chip is characterized. Power penalty for transmission over 680 km of conventional single-mode fiber of <0.5 dB, average output power >0 dBm, and linewidth <9 MHz is shown on all 20 channels.

UR - https://www.scopus.com/pages/publications/0033658282

UR - https://www.scopus.com/pages/publications/0033658282#tab=citedBy

M3 - Paper

SP - 208

EP - 210

T2 - Optical Fiber Communication Conference

Y2 - 7 March 2000 through 10 March 2000

ER -

2.5 Gb/s transmission over 680 km using a fully stabilized 20 channel DBR laser with monolithically integrated semiconductor optical amplifier, photodetector and electroabsorption modulator

Abstract

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ASJC Scopus subject areas

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