Vol. 16, no.1, 2024
РусскийEnglish
CONDENSED MATTER NUCLEAR PHYSICS
TRACKS OF STRANGE RADIATION. THEIR PROPERTIES. AN ATTEMPT AT EXPLANATION
1Alexander G. Parkhomov,2Vladislav A. Zhigalov, 3Vladimir K. Nevolin
1KIT Experimental Design Laboratory
Moscow 121108, Russian Federation
2Kazakh Satpayev National Research Technical University, https://satbayev.university/en/
Almaty 050013, Republic of Kazakhstan
3Moscow Institute of Electronic Technology, https://eng.miet.ru/
Zelenograd 124498, Moscow, Russian Federation
E-mail: alexparh@mail.ru, zhigalov@gmail.com, vkn@miee.ru
Received September 29, 2023, peer-reviewed October 06, 2023, accepted October 13, 2023, published March 15, 2024.
Abstract: A brief description is given of the discovered properties of tracks that appear near installations in which LENR processes occur. A hypothesis is presented that explains where the particles that "draw" the tracks come from, why the patterns of the tracks are unique, and why the intensity of the appearance of the tracks is not constant. Experiments confirming this hypothesis are described.
Keywords: LENR, strange radiation, tracks, droplet tracks, microcraters, dust, electric charge, X-ray radiation, Auger electrons, piezoelectrics
UGC 53.043
RENSIT, 2024, 16(1):79-88e DOI: 10.17725/j.rensit.2024.16.079
Full-text electronic version of this article - web site http://en.rensit.ru/vypuski/article/536/16(1)79-88e.pdf