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For more information on this, visit http://edweb.photonics.crc.org.au Making optical fibres For more information on this, visit http://edweb.photonics.crc.org.au Double crucible method: The molten core glass is placed in the inner crucible. The molten cladding glass is placed in the outer crucible. The two glasses come together at the base of the outer crucible and a fibre is drawn. Long fibres can be produced (providing you don't let the content of the crucibles run dry!). Step-index fibres and graded-index fibres can be drawn with this method. Check out the Light Guide at http://edweb.photonics.crc.org.au

For more information on this, visit http://edweb.photonics.crc.edu.au Making optical fibres For more information on this, visit http://edweb.photonics.crc.edu.au Rod-in-Tube method: A rod of core glass is placed inside a tube of cladding glass. The end of this assembly is heated; both glass are softened and a fibre is drawn. Rod and tube are usually 1 m long. The core rod has typically a 30 mm diameter. The core glass and the cladding glass must have similar softening temperatures. However, one must be very careful not to introduce impurities between the core and the cladding. Check out the Light Guide at http://edweb.photonics.crc.org.au

For more information on this, visit http://edweb.photonics.crc.edu.au Making optical fibres Modified Chemical Vapour Deposition: Chemicals are mixed in vapour phase and react inside a glass tube rotating on a lathe. Fine particles of solid germano or phosphoro silicate glass deposit on the inside of the tube. A travelling burner moving along the tube stimulates a chemical reaction and also fuses the particles into glass on the inner wall of the tube. Outer cladding layers are deposited first, then core layers further in. Next the tube is heated to 2000 C and collapses into a “preform” The preform is then put into a furnace and is drawn into fibre. Check out the Light Guide at http://edweb.photonics.crc.org.au For more information on this, visit http://edweb.photonics.crc.edu.au

For more information on this, visit http://edweb.photonics.crc.edu.au Making optical fibres Modified Chemical Vapour Deposition: Check out the Light Guide at http://edweb.photonics.crc.org.au For more information on this, visit http://edweb.photonics.crc.edu.au

Making optical fibres MCVD A state-of-the-art array of computer-controlled valves used to adjust the flow of various gas phase reactants used in fabricating preforms for specialised optical fibres at OFTC, Australian Technology Park, Sydney, NSW. Check out the Light Guide at http://edweb.photonics.crc.org.au

For more information on this, visit http://edweb.photonics.crc.org.au Making optical fibres Drawing the fibre The tip of the preform is heated to about 2000°C in a furnace. As the glass softens, a thin strand of softened glass falls by gravity and cools down. The fibre diameter is constantly monitored as it is drawn. A plastic coating is then applied to the fibre, before it touches any components. The coating protects the fibre from dust and moisture. The fibre is then wrapped around a spool. Check out the Light Guide at http://edweb.photonics.crc.org.au For more information on this, visit http://edweb.photonics.crc.org.au

Making optical fibres Fibre Drawing Tower (OFTC) This is a photograph of the fibre drawing tower in use at the Optical Fibre Technology Centre, part of the University of Sydney, and one of the organisations of the Australian Photonics Cooperative Research Centre. The tower is located in the National Innovation Centre, at the Australian Technology Park, Eveleigh near Redfern Railway Station in Sydney. The buildings of the Australian Technology Park were formerly large railway workshops used for building and repairing locomotives and other rolling stock, but have been refurbished and restored to provide manufacturing, laboratory and office space for many new high technology companies, including various photonics firms associated with the Australian Photonics CRC.

For more information on this, visit http://edweb.photonics.crc.edu.au Making optical fibres For more information on this, visit http://edweb.photonics.crc.edu.au Check out the Light Guide at http://edweb.photonics.crc.org.au