Quantum Gravity Biphotons

Another way to look at quantum gravity biphotons is to first consider the single photon transfer from an excited source to excite a phase-matched absorber ground state. As long as the source and absorber are close enough given the dephasing lifetime, a superposition forms between source and absorber. This superposition will collapse by dephasing the source and leaving the absorber excited or by dephasing the absorber and leaving the source excited. The superposition can also result in a chemical bond between the source and absorber and a new molecular ground state.

Although gravity appears to be an attraction between two bodies, quadrupole quantum gravity is a result the bonding of each of the bodies to the collapsing universe, not to each other. Quadrupole quantum gravity involves a complementary pair of photons, a biphoton, that bond each of the two bodies to the universe by a phase match that emits each photon. The gravity shadows between the two bodies is the scalar and vector gravity of quadrupole quantum gravity. Essentially, gravity is the pure collapse of the universe that shows up as bodies shadow each other's bonds to the universe.

The quantum gravity between each of the two stars of a binary involves not only scalar gravity, the only gravity of GR, but also vector quantum gravity. Binary stars therefore execute out-of-plane rosette orbits as a result of the combination of scalar and vector gravity unlike the planar orbits of GR binary stars.

Quantum Gravity Spin and Phase

Quantum gravity has scalar attraction but also both spin and phase and so quantum gravity differs from relativistic gravity, which has only scalar attraction and neither quantum spin nor quantum phase. Quantum electromagnetism (EM) has both spin and phase and so quantum EM has both scalar attraction or repulsion of static charges as well as the vector forces of moving charges. Quantum gravity then has the scalar attraction of bodies as well as the vector forces of moving bodies.

The collapsing quantum aether universe drives both quantum gravity and quantum EM and while it is the oscillation of quantum aether that drives EM, it is the collapse of quantum aether that drives quantum gravity. All bodies in the collapsing universe lose mass by dephasing and radiation and so stars that lose mass by radiation have even more vector gravity than cooler bodies. Star radiation leads to coupling of star motions around their centers of mass that contributes to scalar gravity and so vector gravity is not apparent with a simple binary star. However, star clusters and galaxies show the added velocities of vector gravity that Science now associates with dark matter.

Like neutron spin and phase, the spin and phase of the universe does not really depend on the motion of charges. However, the universe spin phase does couple with the spin phase of local matter and so there is a slight asymmetry to all universe matter spin phases.

It is quantum gravity that results in the asymmetry of universe spin phase and shows up as a quadrupole asymmetry of the cosmic microwave background. The Mollweide diagram shows the entire sky with the Milky Way along the axis, giving our ecliptic motion as an "s" shape.

Five Great Issues of Science

 Five Great Issues of Science

The five great issues of Science represent the purest Science driven by our curiosity, often termed basic research. These great issues represent the collective curiosity of humanity for all of recorded history and the economic sector Knowledge represents these great issues. In fact, the five great issues of Science are perpetual issues that Science will never completely resolve.

There are two great motions of the five issues of matter, action, life, free choice, and cosmos. The figure shows the motion of quantum phase coherence orders the complementary chaotic motion of classical entropy from the cosmic microwave background to the blackhole destiny. Matter is what makes up the universe while action is how the universe changes matter. Life is an evolution from the chaos of the disordered CMB matter to the ordered life of quantum coherence that gives us the feeling of free choice. We wonder about the origin of the cosmos since the chaos of entropy as well as the coherence of quantum phase make up the universe as complementary matter and action.

There are also many great problems of Science, that Science will eventually solve and so differ from the perpetual nature of the five great issues. The problems of Science are called applied Science, but some are also called basic Science. Among the problems of Science are:

1) Treating Cancer (Health);
2) Treating Heart Disease (Health);
3) Treating other Diseases (Health);
4) Placing People into Space (Knowledge);
5) Reducing Energy Costs (Energy);
6) Improving Transportation (Transportation);
7) Cleaning Up Defense Wastes (Security);
8) Maintaining Economic Stability (Money);
9) Reducing Human Environmental Impact (Environment);
10) Stabilizing Population Growth (Environment);
11) Maintaining World Peace (Security);
12) Maintaining National Defense (Security);
13) Harnessing Nuclear Energy (Energy);
14) Reducing Crime and Faction Conflicts (Security).

Civilization addresses the five issues and many problems of Science for innovation that improves wellbeing. After all, wellbeing includes the habitats of environment as well as the comforts of civilization.