Could the quantum tunneling effect explain: why there are problems with Voyager 1 probe radio transmissions?

Image: "NASA’s Voyager 1 spacecraft, shown in this artist’s concept traveling through space against a field of stars, has been exploring our solar system since 1977, along with its twin, Voyager 2. Credit: NASA/JPL-Caltech". (ScitechDaily/NASA’s Voyager 1 Spacecraft Mystery: Engineers Investigating Telemetry Data)

Voyager 1 probe travels outside our solar system. And when it sends data to Earth the signal impacts with the plasma ball or impact wave where particles from our sun face particles from other solar systems. That point is called the heliopause. When Voyager 1 sends a signal, it faces that plasma bubble, and then it must tunnel through it. Then it must travel through the Oort cloud. And some of those hyper cold particles have powerful magnetic fields that affect that signal. 

There are mysterious things in the signal of the Voyager 1 spacecraft. The probe's AACS (Attitude Articulation and Control system) doesn't accurately reflect things. That happens onboard. The system works just fine but there are some non-predicted things in the data that this system sends to Earth. So could there be some kind of thing that causes that effect? 

The Voyager 1 travels outside the solar system.  Far away from the Oort cloud, and plasma wave. That surrounds our solar system. That bubble-shaped impact area is the point where particles of our sun impact with particles that are coming from the other solar systems.

When the signal leaves the Voyager 1 it should travel through that plasma ball. And that thing can cause changes in the shape of that signal. But there is also one thing that makes this problem of Voyager spacecraft interesting. 

Image 2) The quantum tunneling effect is similar in all cases. When wave motion hits the potential wall. It turns shorter before it can travel through the wall. The same thing happens to the signal that has the source outside that plasma ball. It acts like in all other quantum tunneling cases. Also part of that signal reflects away from that potential wall. 

Before wave motion passes that plasma wall it turns shorter.  Because the energy level and gas density inside that plasma bubble are different than outside it the wave motion cannot take its original form because the conditions in that quantum systems are different. 

The plasma bubble around our solar system is the potential wall between two quantum systems. And the problems with Voyager 1 can explain why we cannot see other intelligent civilizations. When the signal from other solar systems travels to Earth. It travels through multiple quantum systems.

And each quantum system is different. That will distort the signal. The quantum systems around stars are unique. The red dwarf has no similar plasma bubble to yellow stars. And also interstellar nebulas have their power fields. And they can distort any humanoid signals. 

The plasma outside the plasma bubble of our solar system is very thin. That thing causes that there are less disturbing outside effects in interstellar space than in our solar system. When a signal travels in that space it's faster than radio signals. That travel in our solar system. The reason for that is there are few crossing quantum fields than in the plasma bubbles around the stars. 

When the radio wave impacts the plasma bubble. That causes an effect. That the wave motion turns shorter. Then the wave motion will tunnel through that plasma bubble. Because the conditions inside the plasma bubble around the solar system are different than outside it the radio wave cannot reach its original form. 

https://scitechdaily.com/nasas-voyager-1-spacecraft-mystery-engineers-investigating-telemetry-data/

Image1 :) https://scitechdaily.com/nasas-voyager-1-spacecraft-mystery-engineers-investigating-telemetry-data/

Image 2: )https://en.wikipedia.org/wiki/Quantum_tunnelling