Аннотация:The commonality of cyclic processes and rhythms of super volcanoes with periodiccomponents of solar neutrino and muons fluxes is a subject of modern research. Thisstudy includes new additional factors - solar flares and thermal fields of radioactivestructures. Experimental basis of research - simultaneous observations of temperaturein the creek of the Yellowstone volcano caldera and in the laboratory of the Institute ofPhysics of the Russian Academy of Sciences on cesium and uranium ore 235 There is ashift of the maximum correlation by 36.5 days relative to variations in the temperatureof cesium 137 That is, the flux of solar neutrinos and muons almost simultaneouslyaffect cesium 137 and the radioactive substances of the magma chambers of the supervolcano, but thermal variations of magma and surrounding structures reach the surfaceof the day and the sources of the stream in only 36.5 days. The study of the fine structureof temperature fields in the thickness of the Elbrus rocks as a super volcano was carriedout with precision thermometers that allow temperature measurements with a sensitivityof ~0.005°C in the gallery of the North Caucasus Geophysical Observatory of the PhysicalInstitute of Physics, Russian Academy of Sciences, that is, in the Baksan Gorge at adistance of 4100 m from the mouth of the Baksan Neutrino Division of the neutrinosystem. The inter correlation function between the radioactivity variations of uraniumore in the laboratory of the Institute of Physical Problems of the Russian Academy ofSciences with hourly averaging and variations in the temperature of a radioactive sourceduring hourly averaging strongly correlate, that is, a forecast of the activation ofvolcanism by the level of radiation from a laboratory source is possible. On the otherhand, one can point to the general sensitivity parameters of volcanoes: temperaturefields, interaction with the neutrino solar flux, solar flares, and the level of radioactivityof the volcanic zone.