Induced radioactivity See also Notes External links Navigation menuPredicting Induced Radioactivity at High Energy Accelerators"Irène Joliot-Curie: Biographical"10.1097/HP.00000000000001390017-907825271934"Irène Joliot-Curie and Frédéric Joliot"PhysLink.com - Ask the Experts "Gamma ray food irradiation"BibNum

Radioactive wasteRadiation effects


radiationradioactiveIrène Joliot-CurieFrédéric Joliot-CuriesurnameNobel Prize in ChemistryMarie CuriePierre Curieradioactive isotopesisotopesalpha particlesboronaluminiumbeta particleNeutron activationatomic nucleusneutronsisotopechemical elementnuclear decaynuclear reactioncosmic radiationparticle acceleratorneutron moderatorthermal neutronsphotodisintegrationgamma raybinding energyMeVdeuteriumisotopesfood irradiationcobaltcaesiumbackground radiationEarthnuclear reactorsneutron fluxnuclear wasteradioactive contamination




Induced radioactivity, also called artificial radioactivity or man-made radioactivity, is the process of using radiation to cause a previously stable material to become radioactive.[1] The husband and wife team of Irène Joliot-Curie and Frédéric Joliot-Curie (they both began using the surname Joliot-Curie when they married in 1926) discovered induced radioactivity in 1934, and they shared the 1935 Nobel Prize in Chemistry for this discovery.[2]


Irène Curie began her research with her parents, Marie Curie and Pierre Curie, studying the natural radioactivity found in radioactive isotopes. Irène and Pierre Joliot-Curie Irene branched off from the Curies to study turning stable isotopes into radioactive isotopes by bombarding the stable material with alpha particles (denoted α). The Joliot-Curies showed that when lighter elements, such as boron and aluminium, were bombarded with α-particles, the lighter elements continued to emit radiation even after the α−source was removed. They showed that this radiation consisted of particles carrying one unit positive charge with mass equal to that of an electron, now knowns as a beta particle.


Neutron activation is the main form of induced radioactivity. It occurs when an atomic nucleus captures one or more free neutrons. This new, heavier isotope may be either stable or unstable (radioactive), depending on the chemical element involved.
Because free neutrons disintegrate within minutes outside of an atomic nucleus, free neutrons can be obtained only from nuclear decay, nuclear reaction, and high-energy interaction, such as cosmic radiation or particle accelerator emissions. Neutrons that have been slowed down through a neutron moderator (thermal neutrons) are more likely to be captured by nuclei than fast neutrons.


A less common form of induced radioactivity results from removing a neutron by photodisintegration. In this reaction, a high energy photon (a gamma ray) strikes a nucleus with an energy greater than the binding energy of the nucleus, which releases a neutron. This reaction has a minimum cutoff of 2 MeV (for deuterium) and around 10 MeV for most heavy nuclei.[3] Many radionuclides do not produce gamma rays with energy high enough to induce this reaction.
The isotopes used in food irradiation (cobalt-60, caesium-137) both have energy peaks below this cutoff and thus cannot induce radioactivity in the food.[4]


Some induced radioactivity is produced by background radiation, which is mostly natural. However, since natural radiation is not very intense in most places on Earth, the amount of induced radioactivity in a single location is usually very small.


The conditions inside certain types of nuclear reactors with high neutron flux can induce radioactivity. The components in those reactors may become highly radioactive from the radiation to which they are exposed. Induced radioactivity increases the amount of nuclear waste that must eventually be disposed, but it is not referred to as radioactive contamination unless it is uncontrolled.


Further research originally done by Irene and Frederic Joliot-Curie has led to modern techniques to treat various types of cancers.[5]



See also


  • Neutron activation

  • Radioactive decay

  • Radioactivity

  • Slow neutron

  • Radiocarbon dating


Notes



  1. ^ Fassò, Alberto; Silari, Marco; Ulrici, Luisa (October 1999). Predicting Induced Radioactivity at High Energy Accelerators (PDF). Ninth International Conference on Radiation Shielding, Tsukuba, Japan, October 17–22, 1999. Stanford, CA: SLAC National Accelerator Laboratory, Stanford University. SLAC-PUB-8215. Retrieved December 10, 2018..mw-parser-output cite.citationfont-style:inherit.mw-parser-output .citation qquotes:"""""""'""'".mw-parser-output .citation .cs1-lock-free abackground:url("//upload.wikimedia.org/wikipedia/commons/thumb/6/65/Lock-green.svg/9px-Lock-green.svg.png")no-repeat;background-position:right .1em center.mw-parser-output .citation .cs1-lock-limited a,.mw-parser-output .citation .cs1-lock-registration abackground:url("//upload.wikimedia.org/wikipedia/commons/thumb/d/d6/Lock-gray-alt-2.svg/9px-Lock-gray-alt-2.svg.png")no-repeat;background-position:right .1em center.mw-parser-output .citation .cs1-lock-subscription abackground:url("//upload.wikimedia.org/wikipedia/commons/thumb/a/aa/Lock-red-alt-2.svg/9px-Lock-red-alt-2.svg.png")no-repeat;background-position:right .1em center.mw-parser-output .cs1-subscription,.mw-parser-output .cs1-registrationcolor:#555.mw-parser-output .cs1-subscription span,.mw-parser-output .cs1-registration spanborder-bottom:1px dotted;cursor:help.mw-parser-output .cs1-ws-icon abackground:url("//upload.wikimedia.org/wikipedia/commons/thumb/4/4c/Wikisource-logo.svg/12px-Wikisource-logo.svg.png")no-repeat;background-position:right .1em center.mw-parser-output code.cs1-codecolor:inherit;background:inherit;border:inherit;padding:inherit.mw-parser-output .cs1-hidden-errordisplay:none;font-size:100%.mw-parser-output .cs1-visible-errorfont-size:100%.mw-parser-output .cs1-maintdisplay:none;color:#33aa33;margin-left:0.3em.mw-parser-output .cs1-subscription,.mw-parser-output .cs1-registration,.mw-parser-output .cs1-formatfont-size:95%.mw-parser-output .cs1-kern-left,.mw-parser-output .cs1-kern-wl-leftpadding-left:0.2em.mw-parser-output .cs1-kern-right,.mw-parser-output .cs1-kern-wl-rightpadding-right:0.2em


  2. ^ "Irène Joliot-Curie: Biographical". The Nobel Prize. n.d. Retrieved December 10, 2018.


  3. ^ Thomadsen, Bruce; Nath, Ravinder; Bateman, Fred B.; Farr, Jonathan; Glisson, Cal; Islam, Mohammad K.; LaFrance, Terry; Moore, Mary E.; George Xu, X.; Yudelev, Mark (2014). "Potential Hazard Due to Induced Radioactivity Secondary to Radiotherapy". Health Physics. 107 (5): 442–460. doi:10.1097/HP.0000000000000139. ISSN 0017-9078. PMID 25271934.


  4. ^ Caesium-137 emits gammas at 662 keV while cobalt-60 emits gammas at 1.17 and 1.33 MeV.


  5. ^ "Irène Joliot-Curie and Frédéric Joliot". Science History Institute. Retrieved 21 March 2018.



External links


  • PhysLink.com - Ask the Experts "Gamma ray food irradiation"

  • Conference (Dec. 1935) for the Nobel prize of F. & I. Joliot-Curie (induced radioactivity), online and analyzed on BibNum [click 'à télécharger' for English version].


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