1 Tbit/s (100 Gbit/s × 10 channel) OTDM/WDM transmission using a single supercontinuum WDM source
1 Tbit/s (100 Gbit/s × 10 channel) OTDM/WDM transmission using a single supercontinuum WDM source
- Author(s): T. Morioka ; H. Takara ; S. Kawanishi ; O. Kamatani ; K. Takiguchi ; K. Uchiyama ; M. Saruwatari ; H. Takahashi ; M. Yamada ; T. Kanamori ; H. Ono
- DOI: 10.1049/el:19960604
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- Author(s): T. Morioka 1 ; H. Takara 1 ; S. Kawanishi 1 ; O. Kamatani 1 ; K. Takiguchi 1 ; K. Uchiyama 1 ; M. Saruwatari 1 ; H. Takahashi 2 ; M. Yamada 2 ; T. Kanamori 2 ; H. Ono 2
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View affiliations
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Affiliations:
1: NTT Optical Network Systems Laboratories, Kanagawa, Japan
2: NTT Opto-electronics Laboratories, Ibaraki, Japan
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Affiliations:
1: NTT Optical Network Systems Laboratories, Kanagawa, Japan
- Source:
Volume 32, Issue 10,
9 May 1996,
p.
906 – 907
DOI: 10.1049/el:19960604 , Print ISSN 0013-5194, Online ISSN 1350-911X
100 Gbit/s × 10 channel (1 Tbit/s) optical signals from a single supercontinuum WDM source are successfully transmitted over a 40 km dispersion-shifted fibre using a 400 GHz channel-spaced arrayed-waveguide grating WDM MUX/DEMUX as well as a 100 Gbit/s–10 Gbit/s all-optical TDM MUX/DEMUX.
Inspec keywords: optical fibre communication; time division multiplexing; wavelength division multiplexing
Other keywords:
Subjects: Optical communication; Communication switching
References
-
-
1)
- T. Morioka , K. Uchiyama , S. Kawanishi , S. Suzuki , M. Saruwatari . Multiwavelengthpicosecond pulse source with low jitter and high optical frequency stabilitybased on 200 nm supercontinuum filtering. Electron. Lett. , 1064 - 1066
-
2)
- Oda, K., Fukutoku, M., Fukui, M., Kitoh, T., Toba, H.: `16-channel × 10-Gbit/soptical FDM transmission over a 1000 km conventional single mode fiber employingdispersion compensating fiber and gain equalizer', PD22, OFC'95, 1995.
-
3)
- H. Takara , S. Kawanishi , M. Saruwatari . Stabilisation of a modelocked Er-dopedfibre laser by suppressing the relaxation oscillation frequency component. Electron. Lett. , 292 - 293
-
4)
- S. Kawanishi , H. Takare , T. Morioka , O. Kamatani , M. Saruwatari . 200 Gbit/s, 100 km time-division-multiplexed optical transmission usingsupercontinuum pulses with prescaled PLL timing extraction and all-optical demultiplexing. Electron. Lett. , 816 - 817
-
5)
- H. Takahashi , S. Suzuki , I. Nishi . Wavelength multiplexer based on SiO2-Ta2O5arrayed-waveguide grating. IEEE J. Lightwave Technol. , 989 - 995
-
6)
- T. Morioka , S. Kawanishi , H. Takara , O. Kamatani , M. Yamada , T. Kanamori , K. Uchiyama , M. Saruwatari . 100 Gbit/s × 4 ch, 100 km repeaterless TDM-WDM transmission using a single supercontinuum source. Electron. Lett. , 5 , 468 - 470
-
7)
- T. Morioka , H. Takara , S. Kawanishi , T. Kitoh , M. Saruwatari . Error-free 500Gbit/s all-optical demultiplexing using low-noise, low-jitter supercontinuum shortpulses. Electron. Lett. , 9
-
8)
- Tkach, R.W., Gnauck, A.H., Chraplyvy, A.R., Derosier, R.M., Giles, C.R., Nyman, B.M., Ferguson, G.A., Sulhoff, J.W., Zyskind, J.L.: `One-third terabit/stransmission through 150 km of dispersion-managed fiber', ECOC'94, 1994, p. 45.
-
9)
- M. Yamada . A low noise and gain-flattened amplifier composed of a silica-basedand fluoride-based Er3+-doped fiber amplifier in a cascade configuration. Photonics Technol. Lett.
-
10)
- O. Kamatani , S. Kawanishi , M. Saruwatari . Prescaled 6.3 GHz clock recovery from 50 Gbit/s TDM signal with 50 GHzPLL using four-wave mixing in a travelling-wave laser diode optical amplifier. Electron. Lett. , 807 - 809
-
1)