Fractal Interference Nodes as the Origin of Nuclear Fission Products
Creators
Description
This thesis presents an alternative physical model to describe the distribution of fission products in nuclear reactions.
In contrast to conventional fragmentation models, this approach assumes that fission products do not emerge mechanically,
but rather arise at interference nodes formed by recursively superimposed, spherically symmetric wavefields.
The numerically simulated density distributions show good qualitative agreement with experimental fission fragment data
(IAEA [9], ENDF/B-VIII.0 [10]), especially for U-235, Pu-239, and Th-232.
The model suggests that the underlying structure may be geometrically organized rather than stochastic.
This perspective opens new avenues for the physical interpretation – and potentially for the control – of nuclear processes.
Other
Contact:
For scientific correspondence regarding this work or the Asymmetric Source Field Model (ASFM),
please reach out via ORCID profile
or by email at apernt@unifieldlab.org.
ORCID provides a verified and secure communication channel for scientific exchange.
© 2025 Andreas Pernt, UniField Lab
Files
PAPER_Fractal_Interference_EN_Revised_FINAL.pdf
Additional details
Dates
- Created
-
2025-04-13Final Version
- Available
-
2025-04-14Final Version