Radiochromic film

Radiochromic film is a type of self-developing film typically used in the testing and characterisation of radiographic equipment such as CT scanners and radiotherapy linacs. The film contains a dye which changes colour when exposed to ionising radiation, allowing the level of exposure and beam profile to be characterised.[1] Unlike x-ray film no developing process is required and results can be obtained almost instantly, while it is insensitive to visible light (making handling easier).[2]

Mechanism

For medical dosimetry "gafchromic dosimetry film (...) is arguably the most widely used commercial product".[3] Several types of gafchromic film are marketed with differing properties.[4] One type, MD-55, is made up of layers of polyester substrate with active emulsion layers adhered (approximately 16μm thick).[2] The active layer consists of polycrystalline, substituted-diacetylene and the colour change occurs due to "progressive 1,4-trans additions as polyconjugations along the ladder-like polymer chains".[5][3][6]

Usage

Radiochromic films have been in general use since the late 1960s, although the general principle has been known about since the 19th century.[3][7]

Profiling

Radiochromic film can provide high spatial resolution information about the distribution of radiation. Depending on the scanning technique, sub-millimetre resolution can be achieved.[4]

Dosimetry

Unlike many other types of radiation detector, radiochromic film can be used for absolute dosimetry where information about absorbed dose is obtained directly.[3] It is typically scanned, for example using a standard flat bed scanner, to provide accurate quantification of the optical density and therefore degree of exposure. Gafchromic film has been shown to provide measurements accurate to 2% over doses of 0.2-100 Gray (Gy).[8]

gollark: It also ships a "fuse filter" thing, which is apparently based on similar principles but mildly more compact, except construction can fail, and according to their empirical testing it needs over 100000 keys to have a decent chance of not failing, and the only explanation is a link to an incomprehensible paper on properties of hypergraphs.
gollark: I found a crate for it.
gollark: Also, I'm wondering if I *should* actually make it store the full text of stuff, for highlighting the relevant bits.
gollark: As of now the search is just limited to ANDing all the bitmaps; it doesn't do ranking, nearness, multiple boolean operators, sort of thing.
gollark: 3 tokens, right now, I can fiddle with that.

References
  1. Jones, Deric P. (2010). Biomedical sensors (1st ed.). New York: Momentum Press. p. 177. ISBN 9781606500569.
  2. Pawlicki, Todd; Scanderbeg, Daniel J.; Starkschall, George (2016). Hendee's Radiation Therapy Physics (4th ed.). John Wiley & Sons. p. 68. ISBN 9781118575260.
  3. Butson, Martin J; Yu, Peter K.N; Cheung, Tsang; Metcalfe, Peter (September 2003). "Radiochromic film for medical radiation dosimetry". Materials Science and Engineering: R: Reports. 41 (3–5): 61–120. doi:10.1016/S0927-796X(03)00034-2.
  4. Niroomand-Rad, Azam; Blackwell, Charles Robert; Coursey, Bert M.; Gall, Kenneth P.; Galvin, James M.; McLaughlin, William L.; Meigooni, Ali S.; Nath, Ravinder; Rodgers, James E.; Soares, Christopher G. (November 1998). "Radiochromic film dosimetry: Recommendations of AAPM Radiation Therapy Committee Task Group 55". Medical Physics. 25 (11): 2093–2115. doi:10.1118/1.598407. PMID 9829234.
  5. Clough, Roger L. (1995). "Radiochromic Solid-State Polymerization Reaction". Irradiation of polymers: fundamentals and technological applications. ACS Symposium Series. 620 (2nd ed.). Washington, DC: American Chemical Society. pp. 152–166. doi:10.1021/bk-1996-0620.ch011. ISBN 9780841233775.
  6. Ali, I.; Costescu, C.; Vicic, M.; Dempsey, J. F.; Williamson, J. F. (9 July 2003). "Dependence of radiochromic film optical density post-exposure kinetics on dose and dose fractionation". Medical Physics. 30 (8): 1958–1967. doi:10.1118/1.1587611. PMID 12945961.
  7. McLaughlin, W.L.; Yun-Dong, Chen; Soares, C.G.; Miller, A.; Van Dyk, G.; Lewis, D.F. (April 1991). "Sensitometry of the response of a new radiochromic film dosimeter to gamma radiation and electron beams". Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment. 302 (1): 165–176. doi:10.1016/0168-9002(91)90506-L.
  8. Devic, Slobodan (July 2011). "Radiochromic film dosimetry: Past, present, and future". Physica Medica. 27 (3): 122–134. doi:10.1016/j.ejmp.2010.10.001.

Further reading

Williams, Matthew; Metcalfe, Peter (5 May 2011). "Radiochromic Film Dosimetry and its Applications in Radiotherapy". AIP Conference Proceedings. 1345 (1): 75–99. doi:10.1063/1.3576160. ISSN 0094-243X.

This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.