Speaker
Alexander Grigor'evich Oreshko
Description
See the full Abstract at http://ocs.ciemat.es/EPS2018ABS/pdf/P1.2031.pdf
On possibility of creating a muon-catalytic reactor based on periodic
injection of ball lightnings in a chamber with D-T mixture
A. G. Oreshko1, A.A. Oreshko2, T. B. Mavlyudov1
1
Moscow Aviation Institute-National Aerospace University, Moscow, Russia
2
National Scientific Research Institute of Physical-Technical and Radiotechnical
Measurements, Moscow region, Mendeleevo, Russia
The most perspective approach to nuclear fusion is the concept of muon-catalyzed fusion.
As follows from theory, the reaction can occur at a very low temperatures. The main pro-
blem of muon-catalyzed nuclear fusion lies in the fact that existing sources, such as linear
accelerators, require considerable energy expenses for the production of muons. A cheap
source of muons is ball lightning, which interacts with a target or a dense low-temperature
deuterium-tritium mixture. Earlier in experiments, the phenomenon of anomalous passage
of ball lightning through solid-state absorbing filter was discovered [1]. This phenomenon
can be explained only by the multistage generation of particles at the interaction of high-
energy protons of the external shell of ball lightning with a dense medium [2]. The exis-
tence of muons and neutrino at the interaction of ball lightning with a thick metal absorber
is confirmed by the presence of a ball lightning passed through the absorber 6 cm thick
from plumbum [2]. In the ordinary state, the energy that protons of ball lightning gained in
alternating fields is equal to 20-25 MeV [3]. Using the energy converter allows protons to
gain energy, which is required for generation the pions. The decay of pions, as is well
known, leads to generation of muons and muon neutrino. As is known, one and the same
negative muon can participate in 120-150 fusion events for during of its existence. Gene-
ration of muons by means of the ball lightning makes it possible to create a breakthrough
technology in nuclear fusion which has no unsolvable problems. In a short time it is possi-
ble to create a compact nuclear fusion reactor. The approximate cost of creating a demon-
stration version of the reactor based on muon catalysis in one hundred million times less
than the cost of the demo version of tokamak. Ball lightning is the key to solving the pro-
blem of obtaining environmental pure energy. This key must be used.
References
[1] Oreshko A.G., Journal of Plasma Physics, 2015, v.81, N3, p.18.
[2] Oreshko A.G., Oreshko A.A., Proc. 43rd EPS Conf. on Plasma Physics. Leuven (2016).
[3] Oreshko A.G., Oreshko A.A., Mavlyudov T.B. Proton-electron model of ball lightning – in print.
