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Radioluminescence

August 21, 2023

Radioluminescence is the phenomenon by which light is produced in a material by bombardment with ionizing radiation such as alpha particles, beta particles, or gamma rays. Radioluminescence is used as a low level light source for night illumination of instruments or signage. Radioluminescent paint is occasionally used for clock hands and instrument dials, enabling them to be read in the dark. Radioluminescence is also sometimes seen around high-power radiation sources, such as nuclear reactors and radioisotopes.

Radioluminescent 1.8-curie (67 GBq) 6-by-0.2-inch (152.4 mm × 5.1 mm) tritium vial used as a light source. It consists of a sealed glass tube containing radioactive tritium gas whose inner surfaces are coated with a phosphor.

Mechanism

Radioluminescence occurs when an incoming particle of ionizing radiation collides with an atom or molecule, exciting an orbital electron to a higher energy level. The particle usually comes from the radioactive decay of an atom of a radioisotope, an isotope of an element which is radioactive. The electron then returns to its ground energy level by emitting the extra energy as a photon of light. A chemical that releases light of a particular color when struck by ionizing radiation is called a phosphor. Radioluminescent light sources usually consist of a radioactive substance mixed with, or in proximity to, a phosphor.

Applications

See also: Luminous paint § Radioluminescent paint

Since radioactivity was discovered around the beginning of the 20th century, the main application of radioluminescence has been in radioluminescent paint, used on watch and compass dials, gunsights, aircraft flight instrument faces, and other instruments, allowing them to be seen in darkness. Radioluminescent paint consists of a mixture of a chemical containing a radioisotope with a radioluminescent chemical (phosphor). The continuous radioactive decay of the isotope's atoms releases radiation particles which strike the molecules of the phosphor, causing them to emit light. The constant bombardment by radioactive particles causes the chemical breakdown of many types of phosphor, so radioluminescent paints lose some of their luminosity during their working life.

Radioluminescent materials may also be used in the construction of an optoelectric nuclear battery, a type of radioisotope generator in which nuclear energy is converted into light.

Radium

Main article: Radium dials
See also: Radium Girls
 
A 1950s radium clock, exposed to ultraviolet light to increase luminescence
 
Self-luminous white radium paint on the face and hand of an old clock.

The first use of radioluminescence was in luminous paint containing radium, a natural radioisotope. Beginning in 1908, luminous paint containing a mixture of radium and copper-doped zinc sulfide was used to paint watch faces and instrument dials, giving a greenish glow. Phosphors containing copper-doped zinc sulfide (ZnS:Cu) yield blue-green light; copper and manganese-doped zinc sulfide (ZnS:Cu,Mn), yielding yellow-orange light are also used. Radium-based luminescent paint is no longer used due to the radiation hazard posed to persons manufacturing the dials. These phosphors are not suitable for use in layers thicker than 25 mg/cm2, as the self-absorption of the light then becomes a problem. Zinc sulfide undergoes degradation of its crystal lattice structure, leading to gradual loss of brightness significantly faster than the depletion of radium.

ZnS:Ag coated spinthariscope screens were used by Ernest Rutherford in his experiments discovering the atomic nucleus.

Radium was used in luminous paint until the 1960s, when it was replaced with the other radioisotopes mentioned above due to health concerns.[1] In addition to alpha and beta particles, radium emits penetrating gamma rays, which can pass through the metal and glass of a watch dial, and skin. A typical older radium wristwatch dial has a radioactivity of 3–10 kBq and could expose its wearer to an annual dose of 24 millisieverts if worn continuously.[1] Another health hazard is its decay product, the radioactive gas radon, which constitutes a significant risk even at extremely low concentrations when inhaled. Radium's long half-life of 1600 years means that surfaces coated with radium paint, such as watch faces and hands, remain a health hazard long after their useful life is over. There are still millions of luminous radium clock, watch, and compass faces and aircraft instrument dials owned by the public. The case of the "Radium Girls", workers in watch factories in the early 1920s who painted watch faces with radium paint and later contracted fatal cancer through ingesting radium when they pointed their brushes with their lips, increased public awareness of the hazards of radioluminescent materials, and radioactivity in general.

Promethium

In the second half of the 20th century, radium was progressively replaced with paint containing promethium-147. Promethium is a low-energy beta-emitter, which, unlike alpha emitters like radium, does not degrade the phosphor lattice, so the luminosity of the material will not degrade so quickly. It also does not emit the penetrating gamma rays which radium does. The half-life of 147Pm is only 2.62 years, so in a decade the radioactivity of a promethium dial will decline to only 1/16 of its original value, making it safer to dispose of, compared to radium with its half life of 1600 years. This short half-life meant that the luminosity of promethium dials also dropped by half every 2.62 years, giving them a short useful life, which led to promethium's replacement by tritium.

Promethium-based paint was used to illuminate Apollo Lunar Module electrical switch tips and painted on control panels of the Lunar Roving Vehicle.[2]

Tritium

Main article: Tritium radioluminescence
 
Watch face illuminated by tritium tubes

The latest generation of radioluminescent materials is based on tritium, a radioactive isotope of hydrogen with half-life of 12.32 years that emits very low-energy beta radiation. It is used on wristwatch faces, gun sights, and emergency exit signs. The tritium gas is contained in a small glass tube, coated with a phosphor on the inside. Beta particles emitted by the tritium strike the phosphor coating and cause it to fluoresce, emitting light, usually yellow-green.

Tritium is used because it is believed to pose a negligible threat to human health, in contrast to the previous radioluminescent source, radium, which proved to be a significant radiological hazard. The low-energy 5.7 keV beta particles emitted by tritium cannot pass through the enclosing glass tube. Even if they could, they are not able to penetrate human skin. Tritium is only a health threat if ingested or inhaled. Since tritium is a gas, if a tritium tube breaks, the gas dissipates in the air and is diluted to safe concentrations. Tritium has a half-life of 12.32 years, so the brightness of a tritium light source will decline to half its initial value in that time.

Infrared radiofluorescence

Infrared radiofluorescence (sometimes spelt radio-fluorescence) is a dating technique involving the infrared (~ 880 nm) luminescence signal of orthoclase from exposure to ionizing radiation.[3] It can reveal the last time of daylight exposure of sediments, e.g., a layer of sand exposed to light before deposition.[4][5]

See also

References

  1. ^ a b Tykva, Richard; Sabol, Jozef (1995). Low-Level Environmental Radioactivity: Sources and Evaluation. CRC Press. pp. 88–89. ISBN 1566761891.
  2. ^ "Apollo Experience Report – Protection Against Radiation" (PDF). NASA. Retrieved 9 December 2011.
  3. ^ Madhav Krishna Muraria; et al. (Jun 2021). "Infrared radiofluorescence (IR-RF) dating: A review" (PDF). Quaternary Geochronology. 64: 101155. doi:10.1016/j.quageo.2021.101155. S2CID 233883788.
  4. ^ Alastair Key; et al. (Jun 22, 2022). "On the earliest Acheulean in Britain: first dates and in-situ artefacts from the MIS 15 site of Fordwich (Kent, UK)". Royal Society Open Science. 9 (6): 211904. doi:10.1098/rsos.211904. PMC 9214292. PMID 35754990.
  5. ^ Jason Arunn Murugesu (Jun 22, 2022). "UK's earliest hand axes were made by ancient humans 560,000 years ago". New Scientist.

August 21, 2023
radioluminescence, phenomenon, which, light, produced, material, bombardment, with, ionizing, radiation, such, alpha, particles, beta, particles, gamma, rays, used, level, light, source, night, illumination, instruments, signage, radioluminescent, paint, occas. Radioluminescence is the phenomenon by which light is produced in a material by bombardment with ionizing radiation such as alpha particles beta particles or gamma rays Radioluminescence is used as a low level light source for night illumination of instruments or signage Radioluminescent paint is occasionally used for clock hands and instrument dials enabling them to be read in the dark Radioluminescence is also sometimes seen around high power radiation sources such as nuclear reactors and radioisotopes Radioluminescent 1 8 curie 67 GBq 6 by 0 2 inch 152 4 mm 5 1 mm tritium vial used as a light source It consists of a sealed glass tube containing radioactive tritium gas whose inner surfaces are coated with a phosphor Contents 1 Mechanism 2 Applications 2 1 Radium 2 2 Promethium 2 3 Tritium 2 4 Infrared radiofluorescence 3 See also 4 ReferencesMechanism EditRadioluminescence occurs when an incoming particle of ionizing radiation collides with an atom or molecule exciting an orbital electron to a higher energy level The particle usually comes from the radioactive decay of an atom of a radioisotope an isotope of an element which is radioactive The electron then returns to its ground energy level by emitting the extra energy as a photon of light A chemical that releases light of a particular color when struck by ionizing radiation is called a phosphor Radioluminescent light sources usually consist of a radioactive substance mixed with or in proximity to a phosphor Applications EditSee also Luminous paint Radioluminescent paint Since radioactivity was discovered around the beginning of the 20th century the main application of radioluminescence has been in radioluminescent paint used on watch and compass dials gunsights aircraft flight instrument faces and other instruments allowing them to be seen in darkness Radioluminescent paint consists of a mixture of a chemical containing a radioisotope with a radioluminescent chemical phosphor The continuous radioactive decay of the isotope s atoms releases radiation particles which strike the molecules of the phosphor causing them to emit light The constant bombardment by radioactive particles causes the chemical breakdown of many types of phosphor so radioluminescent paints lose some of their luminosity during their working life Radioluminescent materials may also be used in the construction of an optoelectric nuclear battery a type of radioisotope generator in which nuclear energy is converted into light Radium Edit Main article Radium dials See also Radium Girls A 1950s radium clock exposed to ultraviolet light to increase luminescence Self luminous white radium paint on the face and hand of an old clock The first use of radioluminescence was in luminous paint containing radium a natural radioisotope Beginning in 1908 luminous paint containing a mixture of radium and copper doped zinc sulfide was used to paint watch faces and instrument dials giving a greenish glow Phosphors containing copper doped zinc sulfide ZnS Cu yield blue green light copper and manganese doped zinc sulfide ZnS Cu Mn yielding yellow orange light are also used Radium based luminescent paint is no longer used due to the radiation hazard posed to persons manufacturing the dials These phosphors are not suitable for use in layers thicker than 25 mg cm2 as the self absorption of the light then becomes a problem Zinc sulfide undergoes degradation of its crystal lattice structure leading to gradual loss of brightness significantly faster than the depletion of radium ZnS Ag coated spinthariscope screens were used by Ernest Rutherford in his experiments discovering the atomic nucleus Radium was used in luminous paint until the 1960s when it was replaced with the other radioisotopes mentioned above due to health concerns 1 In addition to alpha and beta particles radium emits penetrating gamma rays which can pass through the metal and glass of a watch dial and skin A typical older radium wristwatch dial has a radioactivity of 3 10 kBq and could expose its wearer to an annual dose of 24 millisieverts if worn continuously 1 Another health hazard is its decay product the radioactive gas radon which constitutes a significant risk even at extremely low concentrations when inhaled Radium s long half life of 1600 years means that surfaces coated with radium paint such as watch faces and hands remain a health hazard long after their useful life is over There are still millions of luminous radium clock watch and compass faces and aircraft instrument dials owned by the public The case of the Radium Girls workers in watch factories in the early 1920s who painted watch faces with radium paint and later contracted fatal cancer through ingesting radium when they pointed their brushes with their lips increased public awareness of the hazards of radioluminescent materials and radioactivity in general Promethium Edit In the second half of the 20th century radium was progressively replaced with paint containing promethium 147 Promethium is a low energy beta emitter which unlike alpha emitters like radium does not degrade the phosphor lattice so the luminosity of the material will not degrade so quickly It also does not emit the penetrating gamma rays which radium does The half life of 147Pm is only 2 62 years so in a decade the radioactivity of a promethium dial will decline to only 1 16 of its original value making it safer to dispose of compared to radium with its half life of 1600 years This short half life meant that the luminosity of promethium dials also dropped by half every 2 62 years giving them a short useful life which led to promethium s replacement by tritium Promethium based paint was used to illuminate Apollo Lunar Module electrical switch tips and painted on control panels of the Lunar Roving Vehicle 2 Tritium Edit Main article Tritium radioluminescence Watch face illuminated by tritium tubesThe latest generation of radioluminescent materials is based on tritium a radioactive isotope of hydrogen with half life of 12 32 years that emits very low energy beta radiation It is used on wristwatch faces gun sights and emergency exit signs The tritium gas is contained in a small glass tube coated with a phosphor on the inside Beta particles emitted by the tritium strike the phosphor coating and cause it to fluoresce emitting light usually yellow green Tritium is used because it is believed to pose a negligible threat to human health in contrast to the previous radioluminescent source radium which proved to be a significant radiological hazard The low energy 5 7 keV beta particles emitted by tritium cannot pass through the enclosing glass tube Even if they could they are not able to penetrate human skin Tritium is only a health threat if ingested or inhaled Since tritium is a gas if a tritium tube breaks the gas dissipates in the air and is diluted to safe concentrations Tritium has a half life of 12 32 years so the brightness of a tritium light source will decline to half its initial value in that time Infrared radiofluorescence Edit Infrared radiofluorescence sometimes spelt radio fluorescence is a dating technique involving the infrared 880 nm luminescence signal of orthoclase from exposure to ionizing radiation 3 It can reveal the last time of daylight exposure of sediments e g a layer of sand exposed to light before deposition 4 5 See also EditCherenkov radiation Gas mantle List of light sources Undark Radium Dial Company United States Radium Corporation Radioluminescence in phosphorReferences Edit a b Tykva Richard Sabol Jozef 1995 Low Level Environmental Radioactivity Sources and Evaluation CRC Press pp 88 89 ISBN 1566761891 Apollo Experience Report Protection Against Radiation PDF NASA Retrieved 9 December 2011 Madhav Krishna Muraria et al Jun 2021 Infrared radiofluorescence IR RF dating A review PDF Quaternary Geochronology 64 101155 doi 10 1016 j quageo 2021 101155 S2CID 233883788 Alastair Key et al Jun 22 2022 On the earliest Acheulean in Britain first dates and in situ artefacts from the MIS 15 site of Fordwich Kent UK Royal Society Open Science 9 6 211904 doi 10 1098 rsos 211904 PMC 9214292 PMID 35754990 Jason Arunn Murugesu Jun 22 2022 UK s earliest hand axes were made by ancient humans 560 000 years ago New Scientist Retrieved from https en wikipedia org w index php title Radioluminescence amp oldid 1164650203, wikipedia, wiki, book, books, library,

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