**Commenced**in January 2007

**Frequency:**Monthly

**Edition:**International

**Paper Count:**3

# Publications

##### 3 Proton Radius Calculation for Muonic Hydrogen 2S-2P Transition Experiment

**Authors:**
Jing-Gang Xie

**Abstract:**

_{p}–n

_{µ}), which interacts resonantly with the incoming photon of energy 206.2949(32) meV. A similar calculation is also made for muonic deuterium 2S-2P transition experiment with an accuracy of 1% from the experimental observation. The paper has also explored the theoretical as well as experimentation advancements that have led towards the development of results with lesser deviations.

**Keywords:**
2s-2p transition,
muonic hydrogen,
proton radius,
scattering experiment,
photon,
quantum,
Lamb shift.

##### 2 Newtonian Mechanics Descriptions for General Relativity Experimental Tests, Dark Matter and Dark Energy

**Authors:**
Jing-Gang Xie

**Abstract:**

As the continuation to the previous studies of gravitational frequency shift, gravitational time dilation, gravitational light bending, gravitational waves, dark matter, and dark energy are explained in the context of Newtonian mechanics. The photon is treated as the particle with mass of hν/C^{2} under the gravitational field of much larger mass of M. Hence the quantum mechanics theory could be applied to gravitational field on cosmology scale. The obtained results are the same as those obtained by general relativity considering weak gravitational field approximation; however, the results are different when the gravitational field is substantially strong.

**Keywords:**
Gravitational time dilation,
gravitational light bending,
gravitational waves,
dark matter,
dark energy,
General Relativity,
gravitational frequency shift.

##### 1 Gravitational Frequency Shifts for Photons and Particles

**Authors:**
Jing-Gang Xie

**Abstract:**

The research, in this case, considers the integration of the Quantum Field Theory and the General Relativity Theory. As two successful models in explaining behaviors of particles, they are incompatible since they work at different masses and scales of energy, with the evidence that regards the description of black holes and universe formation. It is so considering previous efforts in merging the two theories, including the likes of the String Theory, Quantum Gravity models, and others. In a bid to prove an actionable experiment, the paper’s approach starts with the derivations of the existing theories at present. It goes on to test the derivations by applying the same initial assumptions, coupled with several deviations. The resulting equations get similar results to those of classical Newton model, quantum mechanics, and general relativity as long as conditions are normal. However, outcomes are different when conditions are extreme, specifically with no breakdowns even for less than Schwarzschild radius, or at Planck length cases. Even so, it proves the possibilities of integrating the two theories.

**Keywords:**
General relativity theory,
particles,
photons,
quantum gravity model,
gravitational frequency shift.