Ru-106

Ru-106 is isotope of Ruthenium.

Atomic mass http://www.periodictable.com/Isotopes/044.105/index.html

105.907329433 amu

Halflife: 373.6 day (decay rate: \(2.14736\times 10^{-8}\) Hz )

Primary radioactivity: \(1.22 \times 10^{16}\) Bq/Kg

Practical radioactivity: \(2.44 \times 10^{16}\) Bq/Kg

Production
Ru-106 is created in the nuclear reactors as product of fission of isotopes of Uranium or Plutonium and seems to be important component of the nuclear waste.

Ru-106 contributes to the relaxation heat of nuclear reactors and the nuclear waste at the scale of order of a year.

Use
\(\rm ^{106}_{~44}Ru \xrightarrow[373.6\, day]{\beta^{-},~ .04\, MeV} {} ^{106}_{~45}Rh \xrightarrow[29.8\, s]{\beta^{-},~  3.54\, MeV} {}^{106}_{~46}Pd \)

The intermediate Rh-106 has atomic mass 105.907287135 amu and with halftime 29.8 second converts to stable Pd-106 with atomic mass 105.903485715 amu

Practically, this means, that, at the decay, \(\rm ^{106}_{~44}Ru\) produces two beta-electrons and two antineutrinos.

Energies of the two decays can be estimated as follows:

(105.907329433 - 105.907287135) amu c^2/MeV

gives estimate of the energy of the first transition 0.0394 MeV

As for the second transition,

(105.907287135 - 105.903485715) amu c^2/MeV

gives estimate 3.541 MeV

It can be compared to the rest mass of electron, that is estimated to be

0.510998946 MeV

See, for ex., https://en.wikipedia.org/wiki/Electron_rest_mass

In such a way, the second electron at the cascade decay of Ru-106 seems to have the kinetic energy, roughly, 100 times of the energy of the first one. Perhaps, namely the second electron is detected at the analysis of samples with Ru-106.

The most of energy at each of these two decays seems to be carried out by the antineutrino, and cannot be used.

2017.09.25.Puff




Ru-106 is important contaminant at the nuclear disasters and at the barbarian mode of storage, use and recycling of the nuclear waste.

Since 2017.09.25, the huge puff of Ru-106 in Ural (Russia) (or Kazakhstan) is reported by the Western researchers. IRSN estimates that the quantity of ruthenium 106 released was major, between 100 and 300 teraBecquerels, id est, of order of \(2\times 10^{14}\)Bq, id est, of order of 10 gram of Ru-106.

If an accident of this magnitude had happened in France it would have required the evacuation or sheltering of people in a radius of a few kilometers around the accident site.

For comparison: amount of unstable isotopes released at the Chernobyl disaster is estimated to be of order of \(5\times 10^{18}\)Bq, id est, the scale of the 2017.09.25.Puff is 4 orders of magnitude smaller.

The extra Ru-106 is detected over Europe. Then, the location of the source is estimated by numerical analysis of the inverse advection problem.

The Russian and Kazakh administration deny the Ru-106 puff.

Such an observation shows good agreement with the general concept about sabotage of dosimetric groups and Russian administration at the nuclear disasters (they try to kill some part of population rather than confess the grave error or crime). Some examples of such a behaviour of Soviet fascists and evidences in favour of this concept are collected in article Уроки Чернобыля.

The simulated map indicates that the source should be in vicinity of point 55.882, 61.205 ; perhaps, it is just Ozersk (Озёрск).

It looks natural that the Ru-106 is not detected in Russia; the sabotage of dosimetrists and administration in Russia has long tradition since the USSR (See, Chernobyl disaster), However, the concept above does not explain, why Ru-106 vaporised at Ozersk is not detected in Finland, Estonia, Latvia, Lithuania, Ukraine, Slovakia, Czekhia, Switzerland, Austria, Hungaria, Italy..

The alternative hypothesis is that few grams of Ru-106 has been dropped into the atmosphere by some aircraft. However, this alternative concept does not explain the appearance to well localised puff in the simulation of the inverse advection problem.

Keywords
2017.09.25.Puff, Advection, Bigpuf, Corruption, Designate Russia as state sponsor of terrorism, Nuclear disaster, Pahanat, Puff, Ru-106 , Russia, Sabotage

Кто радиоактивит, Рутений и Каюк, Уроки Чернобыля