The solar neutrino unit (SNU) is a unit of Solar neutrino flux widely used in neutrino astronomy and radiochemical neutrino experiments. It is equal to the neutrino flux producing 10−36 captures per target atom per second.[1] It is convenient given the very low event rates in radiochemical experiments. Typical rate is expected to be from tens SNU to hundred SNU.[2]
There are two ways of detecting solar neutrinos: radiochemical and real time experiments. The principle of radiochemical experiments is the reaction of the form
.
The daughter nucleus's decay is used in the detection. Production rate of the daughter nucleus is given by , where
With typical neutrino flux of 1010 cm−2 s−1 and a typical interaction cross section of about 10−45 cm2, about 1030 target atoms are required to produce one event per day. Taking into account that 1 mole is equal to 6.022×1023 atoms, this number corresponds to ktons of the target substances, whereas present neutrino detectors operate at much lower quantities of those.
Bellerive, A. (2004). "Review of Solar Neutrino Experiments". International Journal of Modern Physics A. 19 (8): 1167–1179. arXiv:hep-ex/0312045. Bibcode:2004IJMPA..19.1167B. doi:10.1142/S0217751X04019093. S2CID 16980300.
^"The Solar FAQ: Solar Neutrinos and Other Solar Oddities".
April 18, 2024
solar, neutrino, unit, this, article, needs, additional, citations, verification, please, help, improve, this, article, adding, citations, reliable, sources, unsourced, material, challenged, removed, find, sources, news, newspapers, books, scholar, jstor, 2016. This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Solar neutrino unit news newspapers books scholar JSTOR May 2016 Learn how and when to remove this template message The solar neutrino unit SNU is a unit of Solar neutrino flux widely used in neutrino astronomy and radiochemical neutrino experiments It is equal to the neutrino flux producing 10 36 captures per target atom per second 1 It is convenient given the very low event rates in radiochemical experiments Typical rate is expected to be from tens SNU to hundred SNU 2 There are two ways of detecting solar neutrinos radiochemical and real time experiments The principle of radiochemical experiments is the reaction of the formN A Z n e N 1 A Z 1 e displaystyle N A Z nu e longrightarrow N 1 A Z 1 e The daughter nucleus s decay is used in the detection Production rate of the daughter nucleus is given by R N F E s E d E displaystyle R N int Phi E sigma E dE where F displaystyle Phi is the solar neutrino flux s displaystyle sigma is the cross section for the radiochemical reaction N displaystyle N is the number of target atoms With typical neutrino flux of 1010 cm 2 s 1 and a typical interaction cross section of about 10 45 cm2 about 1030 target atoms are required to produce one event per day Taking into account that 1 mole is equal to 6 022 1023 atoms this number corresponds to ktons of the target substances whereas present neutrino detectors operate at much lower quantities of those See also editNeutrino Neutrino detector Mole unit Solar neutrino Terrestrial Neutrino Units TNU Links editBellerive A 2004 Review of Solar Neutrino Experiments International Journal of Modern Physics A 19 8 1167 1179 arXiv hep ex 0312045 Bibcode 2004IJMPA 19 1167B doi 10 1142 S0217751X04019093 S2CID 16980300 References edit http permalink lanl gov object tr what info lanl repo lareport LA UR 97 2534 12 1997 The Solar FAQ Solar Neutrinos and Other Solar Oddities Retrieved from https en wikipedia org w index php title Solar neutrino unit amp oldid 1082826190, wikipedia, wiki, book, books, library,
