Solar neutrino unit

Script error: No such module "Unsubst". 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

${\displaystyle \underset{A}{\overset{}{N}}}Z+{\nu }_e{\displaystyle \underset{N-1}{\overset{A}{⟶}}}(Z+1)+e^{-}$.

The daughter nucleus's decay is used in the detection. Production rate of the daughter nucleus is given by ${\displaystyle R=N\int \mathrm{\Phi }(E)\sigma (E)dE}$, where

• ${\displaystyle \mathrm{\Phi }}$ is the solar neutrino flux
• ${\displaystyle \sigma }$ is the cross section for the radiochemical reaction
• ${\displaystyle N}$ 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 6.022Template:E atoms, this number corresponds to ktons of the target substances, whereas present neutrino detectors operate at much lower quantities of those.

See also

• Neutrino
• Neutrino detector
• Mole (unit)
• Solar neutrino
• Terrestrial Neutrino Units (TNU)

Links

• Script error: No such module "Citation/CS1".

References

<templatestyles src="Reflist/styles.css" />

Script error: No such module "Check for unknown parameters".