Caesium-137 Information & Caesium-137 Links at HealthHaven.com

For the band, see Cesium 137 (band).

Caesium-137 Full table
General
Name, symbol	Caesium-137,¹³⁷Cs
Neutrons	82
Protons	55
Nuclide data
Natural abundance	0 (artificial element)
Half-life	30.07a
Isotope mass	136.91 u
Spin	11/2-
Decay mode	Decay energy
Beta	1.174 ^[1] MeV

Caesium-137 (also spelled cesium) is a radioactive isotope of caesium which is formed mainly as a fission product by nuclear fission. It has a half-life of 30.07 years, and decays by beta decay to a metastable nuclear isomer of barium-137 (Ba-137m). (95% of the decay leads to this isomer; the other 5% directly populates the ground state.) Barium-137m has a half-life of 2.55 minutes and is responsible for all of the gamma ray emission. The ground state of barium-137 is stable. 1g of pure Cs-137 has an activity of 3.4 T Bq.

Caesium-137 is water-soluble and extremely toxic in minute amounts. Once released into the environment, it remains present for many years as its radiological half-life is 30.07 years. It can cause cancer 10, 20 or 30 years from the time of ingestion, inhalation or absorption provided sufficient material enters the body. ^[2]

Cs-137 decay diagram.

The photon energy of Ba-137m is 662 keV. These photons can be used in food irradiation, or in radiotherapy of cancers. Cs-137 is not widely used for industrial radiography because it is chemically unstable. For example, its salts are easily soluble in water which complicates safe handling. Cobalt-60 is preferred for radiography, as it is a chemically stable metal offering higher gamma energies and higher activities. Cs-137 can be found in some moisture and density gauges, flow meters, and other sensor equipment.

[edit] Caesium in environment

Cs-137 γ-spectrum: 660 keV γ- and 30keV Ba K-lines.

The ten highest depositions of Cesium-137 from US nuclear testing at the Nevada Test Site. Shots "Simon" and "Harry" were both from Operation Upshot-Knothole in 1953, while shots "George" and "How" were from Operation Tumbler-Snapper in 1952

Small amounts of Cs-134 and Cs-137 were released into the environment during nuclear weapon tests and some nuclear accidents, most notably the Chernobyl disaster. As of 2005, Cs-137 is the principal source of radiation in the zone of alienation around the Chernobyl nuclear power plant. Together with caesium-134, iodine-131, and strontium-90, it was among the isotopes with greatest health impact distributed by the reactor explosion.

The mean contamination of Cs-137 in Germany after Chernobyl was 2000-4000Bq/m², some parts in the south even 10 times higher. This corresponds to a contamination of 1mg of Cs-137 per square kilometer or around 500g Cs-137 deposited all over Germany.

[edit] Health risk

Actinides				Halflife	Fission products
²⁴⁴Cm	²⁴¹Pu ^f	²⁵⁰Cf	²⁴³Cm^f	10–30 y	¹³⁷Cs	⁹⁰Sr	⁸⁵Kr
²³²U ^f		²³⁸Pu	f is for fissile	69–90 y			¹⁵¹Sm nc➔
4n	²⁴⁹Cf ^f	²⁴²Am^f	f is for fissile	141–351	No fission product has halflife 10² to 2×10⁵ years
4n	²⁴¹Am		²⁵¹Cf ^f	431–898
²⁴⁰Pu	²²⁹Th	²⁴⁶Cm	²⁴³Am	5–7 ky
4n	²⁴⁵Cm^f	²⁵⁰Cm	²³⁹Pu ^f	8–24 ky
	²³³U ^f	²³⁰Th	²³¹Pa	32–160
	4n+1	²³⁴U	4n+3	211–290	⁹⁹Tc		¹²⁶Sn	⁷⁹Se
²⁴⁸Cm	4n+1	²⁴²Pu		340–373	Long-lived fission products
	²³⁷Np	4n+2		1–2 my	⁹³Zr	¹³⁵Cs nc➔
²³⁶U	4n+1		²⁴⁷Cm^f	6–23		¹⁰⁷Pd	¹²⁹I
²⁴⁴Pu				80 my	>7%	>5%	>1%	>.1%
²³²Th		²³⁸U	²³⁵U ^f	0.7–12by	fission product yield

Biological behavior of Cs-137 is similar to potassium. After entering the organism, all caesium gets more or less uniformly distributed through the body, with higher concentration in muscle tissue and lower in bones. The biological half-life of caesium is short at 70 days ^[3].

Improper handling of Cs-137 sources can lead to release of the isotope and radiation contamination and injuries. Perhaps the best known case is the Goiânia accident, when a radiation therapy machine from an abandoned clinic in Goiânia, Brazil, was scavenged and the glowing caesium salt sold to curious buyers. Metallic caesium sources can be also accidentally mixed with scrap metal, resulting in production of contaminated steel;^[4] a notable example is the case from 1998, when Recycler Acerinox in Cadiz, Spain accidentally melted a source.^[2] In 2009, a Chinese demolition company in north-western Shaanxi province did not follow environmental standards, causing some Cs-137 from a measuring instrument to be melted down with other pieces of scrap into slag.^[5]

[edit] See also

Medium-lived
fission products
Prop: Unit:	t^½ a	Yield %	Q * KeV	βγ *
¹⁵⁵Eu	4.76	.0803	252	βγ
⁸⁵Kr	10.76	.2180	687	βγ
^113mCd	14.1	.0008	316	β
⁹⁰Sr	28.9	4.505	2826	β
¹³⁷Cs	30.23	6.337	1176	βγ
^121mSn	43.9	.00005	390	βγ
¹⁵¹Sm	90	.5314	77	β

Commonly used gamma emitting isotopes

[edit] References

^ The Lund/LBNL Nuclear Data Search. "Nuclide Table". http://nucleardata.nuclear.lu.se/NuclearData/toi/nuclide.asp?iZA=550137. Retrieved 2009-03-14.
^ ^a ^b LaForge, John M. (Winter/Spring 1998-1999). "Radioactive Cesium Spill Cooks Europe". Earth Island Journal (Earth Island Institute) 14 (1). http://www.earthislandprojects.org/EIJOURNAL/winter99/wr_winter99cesium.html.
^ "Biological Half-life". http://hyperphysics.phy-astr.gsu.edu/hbase/nuclear/biohalf.html.
^ "Radioactive Scrap Metal". Nuclear Free Local Authorities. October 2000. http://www.nuclearpolicy.info/publications/scrapmetal.php.
^ "Chinese 'find' radioactive ball". BBC. 27 March 2009. http://news.bbc.co.uk/2/hi/asia-pacific/7967285.stm.

[edit] External links

[0] The Lund/LBNL Nuclear Data Search. "Nuclide Table". http://nucleardata.nuclear.lu.se/NuclearData/toi/nuclide.asp?iZA=550137. Retrieved 2009-03-14.

[eij-1] LaForge, John M. (Winter/Spring 1998-1999). "Radioactive Cesium Spill Cooks Europe". Earth Island Journal (Earth Island Institute) 14 (1). http://www.earthislandprojects.org/EIJOURNAL/winter99/wr_winter99cesium.html.

[2] "Biological Half-life". http://hyperphysics.phy-astr.gsu.edu/hbase/nuclear/biohalf.html.

[3] "Radioactive Scrap Metal". Nuclear Free Local Authorities. October 2000. http://www.nuclearpolicy.info/publications/scrapmetal.php.

[4] "Chinese 'find' radioactive ball". BBC. 27 March 2009. http://news.bbc.co.uk/2/hi/asia-pacific/7967285.stm.

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Contents

[edit] Caesium in environment

[edit] Health risk

[edit] See also

[edit] References

[edit] External links