Photons are bosons, having no electric charge or rest mass. They are the carriers of the electromagnetic field. If only at absolute zero the inertial and gravitational forces are unified as believed by some researchers, then a simulation of the absolute zero condition may be possible. EM standing wave confinement of a symmetrical resonance state should approximate the required conditions at temperatures well above the absolute zero point. The approximation could result in a type of inertia we don’t normally encounter. Provided that a standing wave confinement condition is achieved for a time sufficient to be measured. A standing wave appears to be stationary hence the term standing wave. It is this condition that should approximate a frozen in time state. Just how this type of inertia reacts or interact with the ZPF will provide possible new insights. The above model is a suggestion of this idea.
The subatomic proton and neutron are both believed made from three quarks. Could this design be a MACRO proton or antiproton? Since gravity fields act on and in proportion to the fundamental structures of matter, what if that basic structure became huge? If we could then freeze the resonance of that particle would it act strangely? Would it have an inertia or gravitational effect?
We have found that when an object is forced to accelerate, it will see the ZPF to be asymmetric, or in other words, distorted. Due to this distortion the accelerating object will see a zero-point flux of energy and momentum coming at it, whereas ordinarily, when the object is not being accelerated, the ZPF is perfectly uniform and symmetric. A key result of our analysis is that these fluxes prove to be proportional to the acceleration of the object, i.e. the more rapid the acceleration, the more the ZPF is distorted. Material objects consist of charged quarks and electrons, which will tend to scatter any oncoming electromagnetic flux. When all the quarks and electrons in an object scatter the distorted ZPF passing through, the object will experience a kind of drag force. We are proposing that this might be what the inertia reaction force really is... the drag force due to being accelerated through the vacuum fields. In this view, objects would not intrinsically resist being accelerated; objects would not possess mass. Mass would really be just a way of characterizing the resistance due to the ZPF molasses (or in the future more general case, the quantum vacuum molasses) that kicks in upon acceleration.……..A non-geometric (i.e. flat spacetime) approach to gravity is legitimate in quantum gravity. Similarly another non-geometric approach would be to assume that the dielectric properties of space itself may change in the presence of matter: this can be called the polarizable vacuum (PV) approach to gravity. Propagation of light in the presence of matter would deviate from straight lines due to variable refraction of space itself, and other GR effects such as the slowing down of light (as judged by a distant observer) in a gravitational potential would also occur. But of course it is the propagation of light from which we infer that spacetime is curved in the first place. This raises the interesting possibility that GR may be successful and yet not because spacetime is really curved: rather because the point-to-point changes in the dielectric (refractive) properties of space in the presence of matter create the illusion of geometrical curvature. A PV type of model does not directly relate gravitation to the ZPF (or to the more general quantum vacuum) but it does appear to provide a theoretical framework conducive to developing the conjecture of Sakharov that it is changes in the ZPF that create gravitational forces"
Excerpt Below from: Fran De Aquino
"Fran De Aquino's research involves many aspects of Gravitation and Cosmology. After thirty years of research the professor De Aquino discovered that the gravitational and inertial masses are correlated by a factor, which depends on the incident radiation upon the particle. He showed that there is a direct correlation between the radiation absorbed by the particle and its gravitational mass, independently of the inertial mass….here is the possibility of control of the gravitational mass by means of the incident radiation. This theoretical result was recently experimentally confirmed …..Consequently there is a strong evidence that the gravitational forces can be reduced, nullified and inverted by means of electromagnetic radiation." ( Italics Added )
"If we knew what it was we were doing, it would not be called research, would it?"- Albert Einstein