- Transparent alumina
Transparent alumina is a transparent form of
aluminium oxide , Al2O3. In bulk, solid form, alumina is a colorless, transparent solid. Rubies andsapphire s are two forms, containing different impurities, which occur naturally. Rubies and sapphires can also be manufactured synthetically, and synthetic rubies are important in makinglaser s that emit red light. Synthetic rubies contain an impurity ofchromium , which is what gives them their color, and and laser properties.Manufacture
As a powder or solid formed by
sintering (welding together small particles), alumina is opaque ortranslucent . Recently, a method of sintering very small particles of alumina has been developed by researchers at theFraunhofer Institute forCeramic Technologies and Sintered Materials. This sintered alumina is very hard, nearly transparent, and has a very high melting point (2303Kelvin ), yet like other sintered materials it can be produced at temperatures much lower than its melting point.In
2004 , Anatoly Rosenflanz and colleagues at3M inMinnesota used a "flame-spray" technique to alloy alumina (aluminium oxide) with rare-earth metal oxides to produce strong glass with good optical properties. The method avoids many of the problems encountered in conventional glass forming and may be extensible to other oxides.Usage in lasers
The first working laser was made by Theodore H. Maiman in 1960 [cite journal |last=Maiman |first=T.H. |authorlink=Theodore Harold Maiman |year=1960 |title=Stimulated optical radiation in ruby |journal=Nature |volume=187 |issue=4736 |pages=493–494 |doi=10.1038/187493a0] at
Hughes Research Laboratories inMalibu, California , beating several research teams including those ofCharles H. Townes atColumbia University , Arthur Schawlow atBell Labs , [cite book |last=Hecht |first=Jeff |year=2005 |title=Beam: The Race to Make the Laser |publisher=Oxford University Press |isbn=0-19-514210-1] and Gould at a company called TRG (Technical Research Group). Maiman used a solid-state light-pumped syntheticruby to produce red laser light at a wavelength of 694 nanometers (nm). Synthethic ruby lasers are still in use.See also
*
Transparent aluminum
*Nanophase aluminium References
* Rolf Apetz and Michel P. B. van Bruggen. "Transparent Alumina: A Light-Scattering Model", "Journal of the American Ceramic Society" 86, page 480, March 2003. "
* Andreas Krell, Paul Blank, Hongwei Ma, Thomas Hutzler, and Manfred Nebelung. "Processing of High-Density Submicrometer Al2O3 for New Applications", "Journal of the American Ceramic Society" 86(4):546-553, April 2003. "(also online: [http://www.ceramicjournal.org/issues/v86n4/full/6776.html] )"
* A Rosenflanz "et al" 2004 Nature 430 761 ( [http://www.nature.com/cgi-taf/DynaPage.taf?file=/nature/journal/v430/n7001/abs/nature02729_fs.html online abstract] )External links
* [http://www.blackwell-synergy.com/doi/abs/10.1111/j.1151-2916.2003.tb03325.x#search=%22apetz%20bruggen%22 Transparent Alumina: A Light-Scattering Model, Apetz and van Bruggen]
* [http://www.ikts.fhg.de/business/strukturkeramik/basiswerkstoffe/oxidkeramik/transparentkeramik_en.html High-strength transparent components of sub-µm Al2O3 ceramics] "(at the [http://www.ikts.fraunhofer.de/index_en.html Fraunhofer-Institute for Ceramic Technologies and Sintered Materials] )"
* [http://physicsweb.org/article/news/8/8/9 Rosenflanz technique]
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