A conceptual design of the Separated Orbit Cyclotron (SOC) for the proton energy of 240 MeV based on the use of superferric magnets (dipoles and quadrupoles) is presented. Superconducting RF cavities are used as well. The beam intensity is determined by, but not limited to the 500µA available from the IBA "Cyclone-30" cyclotron to be used as the 30MeV injector. The electrical power draw of the helium refrigerator is 250kW.
A model is presented which allows one to calculate heat production and heat losses of the animal body, depending on its activity and weather and climate conditions (air temperature, wind speed, precipitation, and solar radiation). This version of the model is a special one, as it includes the active system of thermal regulation, which allows keeping the temperature homeostasis of the animal body using all available means. The external factors influence the thermoregulation system indirectly, by changing the animal's body total heat. The model identification results and the recommendations concerning the use of the results are presented.
Trapped electrons and positrons in the Earth inner radiation belt were observed by the PAMELA experiment on board Resurs DK satellite. The instrument consists of magnetic spectrometer, imaging electromagnetic calorimeter, time of fight system, anticoincidence and neutron detectors that provide unique particle identification and background rejection in wide energy range from 50 MeV up to hundreds GeVs. PAMELA was collecting data since June 2006 till January 2016. The satellite orbit with 350-600km initial altitude and 70 0 inclination crosses the inner radiation belt in South Atlantic Anomaly at L-shell 1.2. The trajectories of trapped electrons and positrons in the Earth magnetic field were reconstructed by means of a trajectory tracing simulation. In this work PAMELA's spectral measurements are compared with those of other spacecraft and with theoretical predictions.
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