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TY - UNPB AU - Vorontsov, V.A. ED - Kuzin, Maksim ED - Schaa, Volker RW TI - About a Possibility of Acceleration of Ferromagnetic Objects by the Electromagnetic Fields J2 - Proc. of RuPAC2018, Protvino, Russia, 1-5 October 2018 C1 - Protvino, Russia T2 - Russian Particle Accelerator Conference T3 - 26 LA - english AB - As the accelerated objects in work the possibility of use of separate domains of a ferromagnetic is considered. Also perhaps an existence of solid-state communication of domains is possible. Acceleration is carried out at the expense of a gradient of the base magnetic field. The magnetic field of ferromagnetics creates a longitudinal potential well in the base magnetic field. The gradient of the base magnetic field does not exceed a gradient of this potential well and does not allow the accelerated objects to go beyond its limits. Depth of a potential well can be increased at the expense of the electron stream which is in this potential well. He does not leave area of a well too, being reflected from its walls. There is some semblance of the moving adgezator used at coherent acceleration of protons by electronic rings. A certain similarity of repetition of the idea of acceleration of protons electronic rings due to acceleration of electronic rings external fields is possible. It can be as magnetic fields with the corresponding gradient of a longitudinal field, and electric fields also. Some kind of combination of coherent acceleration of neutral domains of a ferromagnetic by the magnetic and electric field turns out. Estimates show that at number of atoms about 10 in 14 degrees their acceleration to 1 MEV apart approximately in 1 meter is possible. The sizes of domains are about 10 in minus fifth degree of meter. Longitudinal magnetic fields are in range of 1 Tesla. PB - JACoW CP - Geneva, Switzerland ER -