The laws of physics give birth to particles on the fundamental platform of physics. From there, they move to the quantum level. Finally, they appear on the classic level, and reality is born.
THE PROCESS FOR THE CREATION OF A PARTICLE:
1ST: The fundamental level of physics produces the embryonic mix that births a particle.
2ND: It then moves to the middle level, the quantum mechanical level, where transformations occur, such as the quantization of gravity
3rd: Upon completion, it moves to the classic physics level to take it onto the reality stage.
The Standard Model is inherently an incomplete theory. (dark matter, dark energy, anti-matter, gravity, etc.). It was first put together in the 1970s. It explains three of the four fundamental forces that govern the universe: electromagnetism, the strong- force, and the weak force.
The quantum field theory, or QFT, is indisputably incomplete.
Experiments have an inherent capability limit. Math hits an undecidability wall, often. We need an additional level of ascertainment for both functions.
Quantum fields generate the seeds of reality that grow into reality on the stage used by classic physics. Quantum fields cover the universe. They roll like waves across the universe while interacting with each other. They ride on a universal quantum electromagnetic field. It differs from a classic electromagnet field.
The fundamental level of physics produces the embryonic mix that births particles. They then move to the quantum level, where they are transformed and quantized. Finally, they move to the visible classic field of physics. We know of 12 classic particles. Each one has its own quantum field. They interact to produce classic reality.
Supersymmetry is a spacetime symmetry between bosons and fermions. Supersymmetry lives at the quantum level of physics.
It made protons and neutrons up of fundamental particles of matter called quarks. Electrons are another type of fundamental particle called leptons. Bosons are fundamental particles that carry forces between fundamental particles of matter.