The mutual energy current interpretation for quantum mechanics

TL;DR

This paper proposes a new interpretation of quantum mechanics based on the mutual energy current (M-current), which unifies light and particle behavior, eliminating wave function collapse and providing a localized energy transfer mechanism.

Contribution

It introduces the M-current concept, combining retarded and advanced waves, as a fundamental energy transfer process applicable to quantum particles, challenging traditional wave function collapse theory.

Findings

M-current explains localized particle detection without wave collapse

Light energy transfer is solely via M-current, not P-current

Quantum particles are modeled as M-current, unifying light and matter behavior

Abstract

Quantum physics has the probability interpretation. From the knowledge of light, we know that wave is always spread out, and hence the electron wave should also spread out. That means the electron wave beam should like the light wave beam become diverged from the source. When the electron is received by an atom we thought the wave collapse. The place to collapse is depends on the probability calculated from the square of absolute value of the wave function. The recent new discovery tell us that the light is not just wave, it is a combination of waves, retarded potential and advanced potential. These two potentials together produce the mutual energy current or referred as M-current. Another light energy current is P-current related to Poynting vector. We found P-current doesn't carry any energy for light. The contribution of P-current to energy transfer can be omitted. The light energy is transferred only by M-current. The beam of M-current doesn't like the beam of P-current which is diverged from the source, instead, the M-current beam first diverges from a source and then converged to a sink. Since the M-current at the place to be received is localized at one electron, the concept of wave function collapse is needless. The probability results of light is because that we have use P-current to roughly calculate the M-current. We thought if Schr\"odinger knew today's light theory, he would for sure also build his wave theory for quantum mechanics similar to the new light theory with M-current. Hence we claim that the M-current theory is not only suitable to the light but also can be applied to the quantum physics. This means all particles are M-current. The M-current is composed of not only the retarded wave, but also the advanced wave. M-current is an inner product of a retarded and an advanced waves.