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Fiber Types in Gigabit Optical Communications

Abstract

Fiber optic cables are the medium of choice in telecommunications infrastructure, enabling the

transmission of high-speed voice, video, and data traffic in enterprise and service provider

networks. Depending on the type of application and the reach to be achieved, various types of

fiber may be considered and deployed.

This paper describes the main characteristics of optical fiber in general, and the properties of

multimode and single-mode fiber (MMF and SMF) in particular.

Brief History of Optical Communications

Table 1.

The Optical Era

Date

Milestone

May 16, 1960

Theodore Maiman demonstrates first laser at Hughes Research Laboratories in Malibu

December 1960

Ali Javan makes first helium-neon laser at Bell Labs, the first laser to emit a steady beam

1962–63

Alec Reeves at Standard Telecommunications Laboratories in Harlow, United Kingdom, commissions a
group to study optical waveguide communications under Antoni E. Karbowiak. One system they study is
optical fiber.

Autumn 1962

Four groups nearly simultaneously make first semiconductor diode lasers, but they operate only pulsed
at liquid-nitrogen temperature. Robert N. Hall’s group at General Electric is first

1963

Karbowiak proposes flexible thin-film waveguide

December 1964

Charles K. Kao takes over STL optical communication program when Karbowiak leaves to become
chair of electrical engineering at the University of New South Wales. Kao and George Hockham soon
abandon Karbowiak’s thin-film waveguide in favor of single-mode optical fiber

January 1966

Kao tells Institution of Electrical Engineers in London that fiber loss could be reduced below 20 decibels
per kilometer for inter-office communications

April 1970

STL demonstrates fiber optic transmission at Physics Exhibition in London

Spring 1970

First continuous-wave room-temperature semiconductor lasers made in early May by Zhores Alferov’s
group at the Ioffe Physical Institute in Leningrad (now St. Petersburg) and on June 1 by Mort Panish
and Izuo Hayashi at Bell Labs

Summer 1970

Maurer, Donald Keck, Peter Schultz, and Frank Zimar at Corning develop a single-mode fiber with loss
of 17 dB/km at 633 nanometers by doping titanium into fiber core

Late Fall 1970

Charles Kao leaves STL to teach at Chinese University of Hong Kong; Murray Ramsay heads STL fiber
group

1971–1972

Unable to duplicate Corning’s low loss, Bell Labs, the University of Southampton, and CSIRO in
Australia experiment with liquid-core fibers

1971–1972

Focus shifts to graded-index fibers because single-mode offers few advantages and many problems at
850 nanometers

June 1972

Maurer, Keck and Schultz make multimode germania-doped fiber with 4 decibel per kilometer loss and
much greater strength than titania-doped fiber

Late 1972

STL modulates diode laser at 1 Gbit/s

1973

John MacChesney develops modified chemical vapor deposition process for fiber manufacture at Bell
Labs

Spring 1974

Bell Labs settles on graded-index fibers with 50 to 100 micrometer cores

June 1975

First commercial continuous-wave semiconductor laser operating at room temperature offered by Laser
Diode Labs

Early 1976

Masaharu Horiguchi (NTT Ibaraki Lab) and Hiroshi Osanai (Fujikura Cable) make first fibers with low
loss – 0.47 decibel per kilometer – at long wavelengths, 1.2 micrometers

Spring 1976

Lifetime of best laboratory lasers at Bell Labs reaches 100,000 hours (10 years) at room temperature