Smoked glass (original) (raw)

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The smoked glass effect on the windows of the King's Library inside the British Library

Smoked glass is glass held in the smoke of a candle flame (or other inefficiently burning hydrocarbon) such that one surface of the sheet of glass is covered in a layer of smoke residue. The glass is used as a medium for recording pen traces in scientific instruments, and is also used to track pheromone deposition in ants[1]

The advantages of using the glass are that the recording medium is easily renewable (just re-smoke the glass), and that the trace obtained can easily be magnified by projection onto a suitable surface.[2][3][4] A variation on this scheme is the use of smoked paper in early seismographs.[5]

The effect of smoked glass can be incorporated into glass manufacture by adding darkening materials, such that light passing through the glass is decreased in brightness. It can be used aesthetically, for example, in the manufacture of coffee tables with smoked glass tops. It can also be used in scientific instruments as a filter, as in the use of smoked glass in cross-staves and sextants, allowing operators to make sun sightings without damaging their eyesight.

  1. ^ Evison, Sophie E. F.; Hart, Adam G.; Jackson, Duncan E. (2008-03-01). "Minor workers have a major role in the maintenance of leafcutter ant pheromone trails". Animal Behaviour. 75 (3): 963–969. doi:10.1016/j.anbehav.2007.07.013. ISSN 0003-3472. S2CID 53147539.
  2. ^ "11.6.1.2 The Tomlinson Surface Meter". Retrieved 2008-11-03.
  3. ^ Janet R. Stein-Taylor; Elisabeth Gantt; Johan A. Hellebust; J. S. Craigie (1973). Handbook of Phycological Methods: Developmental and Cytological Methods. Cambridge [England] University Press. p. 15. ISBN 978-0-521-24915-7.
  4. ^ "Development-Inspection of Gas-Turbine Components at D. Napier & Son, Ltd.: Recording Profiles on Smoked Glass: Equipment and Technique". Aircraft Production. 12 (139). Iliffe Production Publications: 161–166. May 1950.
  5. ^ Jens Havskov & Gerardo Alguacil. Instrumentation in Earthquake Seismology. p. 120. ISBN 978-1-4020-2968-4.