The following explains pair production and pair annihilation. When the space/energy ratio is high around a photon, the photon can not shoulder the compression and the photon becomes two particles. A photon becomes a negatron and a positron. When two particles hit, the space/energy ratio is low around the particles and they become a photon. The particles do not have much compression to shoulder. A negatron and a positron become a photon. For the wave properties of particles, the particle has an electric and magnetic wave in it. The electric force and the magnetic force are in the form of a transverse wave. The particle has a wave in it and the particle is like a wave. For the particle properties of photons, the compression around a photon gives it a particle shape so the photon is like a particle. For photons and electromagnetic waves, the photon has an electric and magnetic wave in it. The photon has four transverse waves in it. It has a complex wave in it. It has one positive electric field wave and one negative electric field wave. It has one positive magnetic field wave and one negative magnetic field wave. It has two electric and two magnetic waves in it. Both the photon and the particle have a wave in it, and both are shaped like a particle, so they both have wave and particle properties.
Pair Production
Top: A photon turning into two particles.
Middle: 2 particles turning into a photon.
Bottom left: wave properties of particles
Bottom right: particle properties of photons
Blue: compression
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