Interpretation of the Same Frequency Mutual Interference of Curved Light on Large-Mass Planets

Visible light is an electromagnetic wave propagated by photons. Visible light can interfere and diffraction, indicating that there will be interaction between photons. The amplitude of the electromagnetic wave attenuates with distance. It can be inferred that the interaction (amplitude) of the two groups of photons is inversely proportional to the distance. When two columns of electromagnetic waves at the same frequency intersect, they will have mutual influence at the intersection points. Generally, this influence is too small and cannot be observed. When a column of visible light passes by a large-mass planet, the electromagnetic waves emitted by the large-mass planet completely cover the visible light. This visible light is continuously affected by the continuous influence of the same frequency light emitted by the large-mass planet, and will form an arc curve around the large-mass planet, just like gravitational curves. This is why people form the impression of "gravitational curved light". It can be predicted that when the light passes next to the neutron star, the beam-shaped radio waves emitted by the neutron star do not intersect with the visible light, so the light is completely unaffected by the neutron star and will not cause the light to bend. The observer sees the primary shadow of the planet; when the beam-shaped radio waves emitted by the neutron star intersect with the visible light, the observer can see the slightly blurred primary shadow and phantom at the same time, which is significantly different from the prediction of gravitational curved light.