1 Tbit/s km transmission experiment at 16 Gbit/s using conventional fibre
1 Tbit/s km transmission experiment at 16 Gbit/s using conventional fibre
- Author(s): A.H. Gnauck ; R.M. Jopson ; J.D. Evankow ; C.A. Burrus ; S.-J. Wang ; N.K. Dutta ; H.M. Presby
- DOI: 10.1049/el:19891133
For access to this article, please select a purchase option:
Buy article PDF
Buy Knowledge Pack
IET members benefit from discounts to all IET publications and free access to E&T Magazine. If you are an IET member, log in to your account and the discounts will automatically be applied.
Thank you
Your recommendation has been sent to your librarian.
- Author(s): A.H. Gnauck 1 ; R.M. Jopson 1 ; J.D. Evankow 1 ; C.A. Burrus 1 ; S.-J. Wang 2 ; N.K. Dutta 2 ; H.M. Presby 1
-
-
View affiliations
-
Affiliations:
1: Crawford Hill Laboratory, AT&T Bell Laboratories, Holmdel, USA
2: Crawford Hill Laboratory, AT&T Bell Laboratories, Murray Hill, USA
-
Affiliations:
1: Crawford Hill Laboratory, AT&T Bell Laboratories, Holmdel, USA
- Source:
Volume 25, Issue 25,
7 December 1989,
p.
1695 – 1696
DOI: 10.1049/el:19891133 , Print ISSN 0013-5194, Online ISSN 1350-911X
We describe a single-channel optical transmission experiment that achieved a bit rate-distance product of 1 Tbit/s Wm over conventional (non-dispersion-shifted) fibre. The transmitter was a directly modulated, 1.3 μm-wavelength, distributed feedback laser. The receiver employed a semiconductor optical preamplifier and a high-impedance pm-HEMT front-end.
Inspec keywords: optical fibres; photodiodes; optical communication equipment; receivers; p-i-n diodes; high electron mobility transistors
Other keywords:
Subjects: Other field effect devices; Fibre optics; Optical communication; Photoelectric devices
References
-
-
1)
- Hagimoto, K., Miyagawa, Y., Miyamoto, Y., Ohhashi, M., Ohhata, M., Aida, K., Nakagawa, K.: `A 10Gb/s long-span fiber transmission experiment employing optical amplification technique and monolithic IC technology', Paper 20PDA-6, IOOC '89, Kobe.
-
2)
- T. Mukai , Y. Yamamoto , T. Kimura . S/N and error rate performance in AlGaAs semiconductor laser preamplifier and linear repeater systems. IEEE J. Quantum Electron. , 1560 - 1568
-
3)
- A.H. Gnauck , C.A. Burrus , S.-J. Wang , N.K. Dutta . 16 Gbit/s transmission over 53 km of fibre using directly modulated 1.3 μm laser. Electron. Lett. , 1356 - 1358
-
4)
- Henry, P.S.: `Error-rate performance of optical amplifiers', Paper THK3, OFC '89, Houston.
-
5)
- R.M. Jopson , A.H. Gnauck , B.L. Kasper , R.E. Tench , N.A. Olsson , C.A. Burrus , A.R. Chraplyvy . 8 Gbit/s, 1.3 μm receiver using optical preamplifier. Electron. Lett. , 233 - 235
-
6)
- H.M. Presby , A.F. Benner , C.A. Edwards . Laser micro-machining of efficient fiber microlenses, Appl. Opt..
-
7)
- Nishimoto, H., Yokota, I., Suyama, M., Okiyama, T., Seino, M., Horimatsu, T., Kuwahara, H., Touge, T.: `Transmission of 12 Gb s over 100 km using an LD-pumped erbium-doped fiber amplifier and a Ti:LiNbO', Paper 20PDA-8, IOOC '89, Kobe.
-
8)
- Flegal, W.M., Haney, E.A., Elliott, R.S., Kamino, J.T., Ernst, D.N.: `Mass production of depressed clad single-mode fiber', Paper TUI6, OFC '84, New Orleans.
-
9)
- Wang, S.J., Dutta, N.K., Gnauck, A.H.: `Wide bandwidth and high power 1.3 μm InGaAsP buried heterostructure distributed feedback lasers', Paper TUDI, CLEO '89, Baltimore.
-
1)