Gravitons are individually too weak to detect. Gravitons roam the quantum realm in droves. Collectively, their patterns give rise to the macroscopic force of gravity. Photons act in the same manner.
Gravitons are the quanta of gravity.
Quantum gravity (QG) is a field interacting with two spins of massless particles called gravitons. They mediate the force of the gravitational field. This is because the source of gravitation is the stress-energy tensor, a second-rank tensor. They move as other force carriers (for example, virtual photons). Gravity is an instantaneous pull force with constant contact. Everything moves in curves; gravity is a form of tension. Gravity is driven by energy. Gravity is made out of energy. All objects that have mass, or energy, attract each other. This attraction is due to their respective gravitational fields. Gravity keeps chaos at bay.
DIAGRAM OF QUANTUM INFORMATION FLOW:
(We have copied nature’s quantum information process and applied it to software for our quantum computers.)
Qubits operate according to the laws of quantum mechanics. Classical computers use silicon-based chips. Quantum computers use quantum properties involving atoms, ions, photons, or electrons.
Properties represent bits that can be prepared in different quantum superpositions of 1 and 0.
Atoms and their constituents, protons, neutrons, and electrons, are quantum particles. Waves that travel near mass are bent toward the mass. And they respond to gravity.
Ripples in spacetime are gravitational waves. These ripples stretch and squeeze space. Waves gain energy when time slows down while traveling radially inward. Waves traveling radially outward lose energy as time speeds up.
Hadrons are made up of light waves caught in a loop. These waves spiral around, bending toward the mass distorting time, and pulling them toward the center of mass. Forces are mediated by excitations (quanta) of specific force-carrying fields. The other three forces: electromagnetism, the weak, and the strong force do the same.
When you wiggle the quark or the gluon field, you force all the other fields to move with it. This causes excitations and waves, which become particles.