A New Understanding of Atomic Stability

Exploring how proton instability and the hidden negative charge of the neutron redefine the foundations of quantum biology and healing energy.

🧠 Section 1 — The Hidden Instability of the Proton

Traditionally, physics treats the proton as a stable subatomic particle.
However, quantum decay studies suggest that protons are only metastable, with extraordinarily long half-lives (beyond 10³⁴ years) — yet still subject to transformation.

In the singularity physics framework developed by Dr Keryn Johnson, the proton’s subtle instability provides the dynamic time-keeping mechanism for biological energy flow.

This instability allows for proton tunnelling, where hydrogen atoms shift through aromatic rings, influencing neurotransmitter function, isotopic transitions, and energy coherence within living systems.

The half-life stability of the proton is 1E+35 years or 3.16E+42 seconds.

This suggests that the proton is really stable. However, the mechanism of tunnelling shifts this perspective. If protons are used to grow other atoms within the faraday cage of the aromatic ring. A bee based alchemical transmutation taking place where proton tunnelling is used to create atoms within the aromatic ring.

The inversion (reciprocal) of this long-life is a short life corresponding to 3.17E-43 seconds. What does that mean in terms of proton biology. 

Consider the Planck time of 5.39E-44 seconds and its reciprocal of 1.855E+43 s^-1. 

Do you see a potential relationship in the proton half-life and the reciprocal of Planck time? They are of similar dimensionality (E+43 and E-43). The remarkable aspects of the processing of protons into other atoms and into neutrons. Consider the U(-) 2.2 x U(-) 2.2 = 4.84 D(+). What this pathway demonstrates is the two negatively charged Up quarks create a positively charged Down quark. What this offers is a timed 888 second decay of the Down quark (+) into two U(-) U(-). 

When 888 s x 2.2E-6 s (muon half-life) the electrons heavier cousin come together to give 1.95E-83 s^2. The reciprocal of this is 5.12E+2 s^-2. The delta of 1E+3 s^-1 from the Charm quark generates 5.12E+5 s^-3, which is the rest mass of the electron.

If we consider the timed replication of cells. Cell division where each atom has to be replicated to generate two identical daughter cells. This of the D(+) --> U(-) + U(-) as a lesson for cells to create a mirror replicate of the process of cell division but it is occurring in the nucleus of the atom that is undergoing cell division as part of the replication of the cell. This system is timed through the 888 s system. The free neutron half-life timing. 

The connection to the aromatic ring is established through the calculation of c^3 x 2 = 5.3888E+25. Where the circumference of the aromatic ring in Planck lengths is 5.45852E+25, which is larger than the c^3. When we look at first light through the aromatic ring gives a timing of 380,000 years or 1.1991888E+13 seconds. The pattern of 888 s refers to the free neutron decay timing. There is a memory within the aromatic ring that protons connect to the Top quark via the aromatic ring. Once within the ring the stand quark charge calculations no longer apply.

The aromatic ring is a special location. A location where supersymmetry inversion operates. The first light is proposed to be due to the decay of dark matter into matter and then matter and antimatter can interact and undergo annihilation to generate light. Timed through the half-life of the free neutron 888 s. This provides a time code for the processes operating within the aromatic ring associated with first light generation at 380,000 years.

It is what is hidden within the aromatic ring. It is hidden from view. The 888 s timing of D(+) --> U(-) + U(-) provides a window into just one of the pathways operating within the ring. The nm radius of 0.139 nm (bond length) and the age of the universe of 1.39E+10 years offers a 1E-11 nm / year relationship. The 380,000 years (first light) corresponds to 3.8E-6 nm. 

3.8 / 2 = 1.9 and 1.9 x 10 = 19. The 1E-6 s is the Charm quarks electric field half-life decay corresponding to 1E-12^0.5 = 1E-6 s.

The difference between 121.6 nm - 102.6 = 19 nm.

The n=4 wavelength in hydrogen is 1459.2 nm / 12 = 121.6 nm

The n=3 wavelength in hydrogen is 820.8 / 8 = 102.6 nm

The 8 Pi in GR. n=3 Paschen line electron transition and proton tunnelling into the aromatic ring. A n=3 3^2 = 9 and 3^4 = 81, where n=3 9.81 m/s^2 Gravitational tunnelling process from the third layer. Timed by the pKa of dopamine at 8.93 that corresponds to 1.65E-22 s. A Higgs mechanism if ever I saw one!

The changes made to the standard model of quark charge calculations so that we can see the supersymmetry inversion model aligns to the geometry of the aromatic ring. 

Up quarks are therefore negatively charged. 

Down quarks are positively charged in the Supersymmetry inversion modelling of the quark theory. The proton UDU = +1 if (-) x (+) x (-) = +1.

In this model of quark charges the proton is still positively charged. 

The neutron DUD = -1 if (+) x (-) x (+) = -1.

The neutron is attracted to the proton in the nucleus because U(-) and D(+) are attracted to one another because of opposite charges. 

So, the neutron is negatively charged. Adding the positron (+), a positively charged electron gives the neutron are partner to dance with. It gives the overall charge of the neutron + positron a zero state. Just like the electron and the proton.  A simple solution to the missing antimatter in cosmology. The revision of the quark charges. 

 

#proton_instability, #quantum_biology, #proton_tunnelling, #unstable_atom_theory, #hydrogen_in_biology.

⚛️ Section 2 — The Neutron’s Negative Core

While conventional models describe the neutron as neutral, deeper charge-mapping suggests a negative central potential surrounded by a positive field.
This inversion explains why neutron decay produces a proton, electron, and antineutrino — a process that encodes the exchange between light (photons) and matter.

In biological models, this negative-core geometry contributes to charge symmetry, providing balance between entropy (decay) and renewal (coherence).
Within the He-BEC isotropic singularity model, it parallels the right-hand rule of electromagnetism — light and gravity unified through inverted charge symmetry.

#neutron #negative_charge, #beta_decay, #quantum_coherence, #isotope_physics, #singularity_model.

🌿 Section 3 — Implications for Life and Healing

Understanding atomic instability redefines biology.
If protons and neutrons are dynamic rather than static, then life itself is an ongoing quantum process, guided by energy transitions at the subatomic level.
This insight supports the regenerative principles behind OH BEE HAVE® empowering healing, where light, hydrogen, and coherence unite to promote cellular renewal.

---

🧬 Section 4 — From Physics to Physiology

• Proton decay ↔ biological time evolution

Here the proton generation of the neutron. The process of storing energy for a rainy day to enable healing and regeneration. A coded temporal energy store. Is this the role of the aromatic ring. A time capsule that remembers. Is that why it has a radius that corresponds to the age of the universe. A real eye opener of regenerative energy.

• Neutron charge inversion ↔ energy conservation and memory

• Hydrogen tunnelling ↔ consciousness and repair

These relationships provide the foundation for quantum-biological innovation — from cognitive energy products to regenerative apitherapy.

Explore the Future of Healing Energy

Learn how Quantum Technologies Ltd is transforming scientific insight into life-enhancing innovation.

Discover OH BEE HAVE NANOS →