Cascade5 Reactions - data provided by Dr. Alexander Parkhomov
Conceived by R. W. Greenyer and coded by P. W. Power for the Martin Fleischmann Memorial Project

Version 5.0, Feb 1, 2020

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Cascades5: Uses the FusionAll and TwoToTwoAll supertables subject to neutrino settings

Lists all energetically favourable reactions that cascade from a starting list of the nuclides in the active core fuel.

Features a Feedback Table, from which you can progressively refine and review all your intentions for each and every nuclide in the Parkhomov tables.

Input used for this run on 11-Feb-2020 13:51:00 (NZT):

Maximmum number of nuclei allowed in all pairings as inputs to both the Fusion and the TwoToTwo (2-2) reaction tables = 100

Maximum number of loops allowed for the recursion process = 3

Maximum Reactor Temperature (Kelvin) = 2400

Elements that will NOT have MELTED at Maximum Reactor Temperature: Feedback Core Fuel Only

Elements that WILL have BOILED before Maximum Reactor Temperature: Feedback All

Minimum energy (MeV) for any Fusion reaction that was counted = 10

Minimum energy (MeV) for any 2-2 reaction that was counted = 10

Radioactive Isotopes: Feedback All

LHL threshold below which nuclides were counted as Radioactive Isotopes = 18

Nuclear Fermions: Feedback Core Fuel Only

Atomic Fermions: Feedback Core Fuel Only

Elements H, D, N, O, F, Cl, Br, I, Li, Na, Rb and Cr, being able to form Dimers (always Bosonic): Feedback All

SQL compatible string for the order by which the Nuclei Table is presented = order by Z, A

Reactions Not Found in the Parkhomov Tables were in the Reactions Table

The Reactions Table is presented in the order in which the Reactions were found or looked for

List of Nuclides in the Fuel = H1 Li7 B10 B11 N14 Al27 Ni58 Ni60 Ni62

The program looked for 1720 Fusion reactions and found 570 in the Parkhomov Tables. Similarly, it looked for 2989 TwoToTwo reactions and found 1825

Thus the program looked for 4709 reactions, of which 0 were found in the Parkhomov Tables and, inside these, 68 nuclides passed all the above criteria, so were added - fed back - to the Nuclides table for further pairing with all the other nuclides.

In the Reactions Table listing, the number 'id' reflects the original order in which the reactions were looked for on this particular run, while 'Tid' is the row number of the reaction as listed in either the FusionAll or the TwoToTwoAll table (as indicated by the 'Type' field).

Original order in which the Nuclei below were added = H1 Li7 B10 B11 N14 Al27 Ni58 Ni60 Ni62 He4 D2 O16 N15 O17 Ne20 S32 Si30 Zn64 Zn66 Zn68 F19 O18 Na23 Ar36 Cl35 Fe56 Cr52 Ar38 S34 Mg24 Cl37 Ar40 K40 Ca40 Cr53 Cr50 Ne22 Mg26 Ge70 Ge72 Ge74 Si28 Ca42 K39 K41 Fe58 Ca44 Ca46 Ti46 T3 Cr54 Ti50 Ti48 Ni64 Se74 Ca48 Fe54 Se76 Se78 Se80 Li6 Zn70 Kr80 Br79 Br81 Kr78 Kr84 Sr88

Duration = 655 seconds

Final Table of Nuclei Used by Reactions Table (68):

Reactions Table: