Antimatter is the opposite of matter and it is supposed to be rare. So why do we see antimatter all over the universe and what does it have to do with black holes?

The shy physicist discovers antimatter

The story of antimatter really starts with the British physicist, Paul Dirac whom you may not have heard of despite the fact that he won a Nobel prize. This is because he was tremendously shy and did not like publicity. Back in the 1920s he predicted the existence of antimatter.

Paul Dirac Public Domain

Antimatter particles are basically the opposite to their matter counterparts. An electron has an opposite particle, like an anti-electron or what’s known as a positron. Various forms of matter have various forms of antimatter associated with them.

It’s supposed to be quite rare in the universe but antimatter was eventually detected in cosmic rays, confirming Dirac’s predictions and he won a Nobel Prize.

Big Bang stories

Mainstream scientists think that shortly after the Big Bang, almost all the matter and antimatter in the universe annihilated each other.

Somehow, although nobody is sure how or why, a little bit more matter was created than antimatter. So matter won the day.

And that’s why we see more matter than antimatter in the universe today.

Antimatter matter annihilation. NASA

This really is the inexplicable, ludicrous story that exists in mainstream science as to how there is more matter than antimatter in our universe.

It is based on circular logic – we think it is true because the observations fit the very story we made up to fit the observations. 🙄 

How do we detect antimatter?

We detect antimatter indirectly because when a particle of matter and antimatter come together they create a form of light radiation such as a Gamma-Ray burst.

We can tell by the signature of that radiation what has actually created it. So we know that it’s a particle of matter and antimatter colliding.

In recent times we’ve been finding antimatter in unexpected places in the universe.

For example, there are antimatter fountains pouring out of the Milky Way. This is what one article had to say.

Articles like this one show that there’s so much that we still don’t understand about the universe, even about powerful and common phenomena.

Antimatter fountain from Milky Way Galaxy. Credit: NASA.

Making sense of antimatter

But once you understand The Black Hole Principle, the antimatter fountains start to make sense. The Black Hole Principle says that light travels through higher dimensions until it reaches the edge of our reality at the speed of light which I call the Perception Horizon where it splits and forms matter and antimatter. 

The Black Hole Principle

These two particles then combine again to form light in the form of gamma-ray bursts that we can detect. However, this ‘breathing’ at the edge of a black hole occurs in a seemingly random pattern.

And this is happening at every single level of the universe.

Making Predictions

So what we’re going to expect at every single level of the universe are signatures of this matter and antimatter creation and annihilation into light.

It occurs at the edge of our perceptions, which happens to be at what we call the speed of light.

But there are other levels of light beyond what we call the speed of light and that is what’s actually creating what we see around us as our universe.

The Antimatter Factory on the Sun

Another example is the so-called antimatter factory on the sun where the sun is blasting subatomic particles to almost at the speed of light.

What’s actually happening is the particles are coming into our world and as they get just below the speed of light, they actually seem to be moving very, very fast. But actually they’ve just slowed down to enter our world of below the speed of light. We can’t perceive most of the universe – which is why people talk about dark matter and dark energy,

Once you know the basic pattern of The Black Hole Principle,  you can start predicting where you can find antimatter.

The Antimatter beams above our heads

One of the places NASA found antimatter was in thunderstorms in 2011. I predicted this happening in my book in 2005.

Beams of antimatter in storms were found using a gamma-ray telescope. These antimatter particle beams are actually being created above our heads and they don’t make any sense to mainstream scientists.

But when you understand the underlying simple principle, the Black Hole Principle, you can not only expect this, you can predict this as well.

Positron beams in hurricanes

So another example is in Hurricanes.

Back in 2018, scientists published that they had discovered Positron beams inside hurricanes.

This, again, was a surprise to the scientists.

Similarities between hurricanes and black holes

But it’s another example of how, at every single level, we see the same pattern.

Hurricanes behave similarly to a galactic black hole. They produce Electrons – causing lightning,
Positrons – the antimatter, the Gamma-Ray bursts and water as well, which is something that we know black holes produce.

The patterns of antimatter

So once you have the simple underlying pattern, you can understand why antimatter which is supposed to be very rare, is actually being detected all over the universe.