Helium 9 nucleus
Nuclear structure of

Helium 9
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2p1nHe30.000137 %stable1/2+2 = p+1 - (1n)
2p2nHe499.999863%stable0+2 = 2
2p3nHe5n em7x10-22 s3/2-2 = 1+1 + (1n)
2p4nHe6e em806.7 ms0+2 = 1+1 + (2n)
2p5nHe7n em2.9x10-21 s3/2-2 = 1+1 + (3n)
2p6nHe8e em119.0 ms0+2 = 2 + (4n)
2p7nHe9n em7 zs1/2-#2 = 1+1 + (5n)
2p8nHe102n em2.68 zeps0+2 = 2 + (6n)
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(half life = 7 zs). Symmetry of proton-electron toruses: T n n n T

Blue toruses = 9 protons
Red toruses = 7 nuclear electrons

Atomic number of He (2) = protons (9) - nuclear electrons (7)

Helium 9 decays by neutron emission of Helium 9 neutron excess to Helium 8

Helium 8 decays by electron emission (from the left position) of Helium 8 decay form to Lithium 8.

Lithium 8 decays by electron emission of Lithium 8 destabilized form through Be8 producing two He4 nucleus (stable).

(The neutron and the subsequent electron emission really happens from the end of the nuclear nanotube, NOT from the central position. Im just depict central neutrons for the sake of picturesque symmetry.)

Click on image for Helium 8 nucleus


Yin-yang model of photon and matter
Structures of atomic nuclei of elements


Helium 8 nucleus Helium 10 nucleus

He3He4He5He6He7He8He9He10

HHeLiBeBCNOFNe
NaMgSiSArCaFeNiNdPb

 
Helium 9 neutron emission mechanism and torus model of emitted particle of neutron. Neutron not an individual particle, it always just a combined proton and electron torus pair snapping proton into electron torus.