Earth Magnetism & Wormholes During Equinox Events

I have authored two books on the subject of extraterrestrial (ET) communication. Extraterrestrial Communication Code was published in February of 2021. The other, Angel Communication Code, will be published before the end of 2023. Each book demonstrates that it is possible for wormholes to appear at a specific location on the earth during equinox events.

This how it is possible to close the gap in time and distance necessary to establish ET communication. It is also how ETs have been able to come and go from earth for hundreds if not thousands of years.

 

ET communication is one of the primary motivators in why we continue to experiment and explore the universe.

The problem is that the existence of wormholes in the universe remains a theoretical construct based on the equations of Einstein.

“Wormholes” are cosmic tunnels that can connect two distant regions of the universe. They have been popularized by the dissemination of theoretical physics and by works of science fiction. 

By using present-day technology, it would seemingly be impossible to create a gravitational wormhole. The field would have to be manipulated with huge amounts of gravitational energy, which no one knows how to generate. In electromagnetism, however, advances in metamaterials and invisibility have allowed researchers to put forward several designs to achieve this.

Scientists in the Department of Physics at the Universitat Autònoma de Barcelona have designed and created, in the laboratory, the first experimental wormhole. They actually connected two regions of space magnetically. The experiment consisted of a tunnel that transferred a magnetic field from one point to the other while keeping it undetectable and invisible all the way.

Researchers used metamaterials and metasurfaces to build the tunnel experimentally, so that the magnetic field from a source, such as a magnet or an electromagnet, appears at the other end of the wormhole as an isolated magnetic monopole.

This result is strange as magnetic monopoles or magnets with only one pole do not exist in nature to the best of our current knowledge. The overall effect is that of a magnetic field which appears to travel from one point to another through a dimension that lies outside the conventional three dimensions. [1]

Science has long believed that:

  1. Magnetism and magnetic fields could somehow be involved in how space craft can traverse lightyears of distance.
  1. Wormholes are a necessary construct for (physical) intergalactic space travel.
  1. ET spacecrafts are probably constructed of materials not known to us on earth or “metamaterials”.

One of the hurdles in going universal with this wormhole creation idea is the need for huge amounts of gravitational force in conjunction with the metamaterials and huge magnetic field. Perhaps the huge magnetic field problem can be solved via the changing magnetic field of the earth during equinox events.

We have used the earth’s gravity to launch space craft since the beginning of human space travel. It is called the slingshot effect.

When a spacecraft launches on a mission to another planet it must first break free of the Earth’s gravitational field. Once it has done that, it enters interplanetary space, where the dominant force is the gravitational field of the Sun.

The spacecraft begins to follow a curving orbit, around the Sun, which is similar to the orbit of a comet. When this orbit brings it close to its target destination the spacecraft must fire a retrorocket to slow down and allow itself to be captured by the gravitational field of its target. The smaller the target, the more the spacecraft must slow down.

Sometimes passing a planet can result in the spacecraft being accelerated, even without the spacecraft firing any of its thrusters. This is known as the ‘slingshot’ effect. 

Such ‘gravity assist’ maneuvers are now a standard part of spaceflight and are used by almost all interplanetary missions. They take advantage of the fact that the gravitational attraction of the planets can be used to change the trajectory and speed of a spacecraft.

The amount by which the spacecraft speeds up or slows down is determined by whether it is passing behind or in front of the planet as the planet follows its orbit.  When the spacecraft leaves the influence of the planet, it follows an orbit on a different course than before.

For example, the Rosetta mission launched in 2004 and is using slingshot maneuvers to reach its destination, Comet 67P/Churyumov-Gerasimenko, in 2014. It has received gravitational ‘kicks’ from close flybys of Mars (2007) and Earth (2005, 2007 and 2009). Rosetta has also made close flybys of two asteroids.

Now let us put solar events here on earth into our wormhole recipe. The energy of the sun is too great to not be involved in this somehow and in some way.

An equinox is an event in which a planet’s subsolar point passes through its Equator. The equinoxes are the only time when both the Northern and Southern Hemispheres experience roughly equal amounts of daytime and nighttime.

On Earth, there are two equinoxes every year: one around March 21 and another around September 22. Sometimes, the equinoxes are nicknamed the “vernal equinox” (spring equinox) and the “autumnal equinox” (fall equinox), although these have different dates in the Northern and Southern Hemispheres.[2]

The vernal equinox is a time when cracks are known to open in Earth’s magnetic field. Researchers have long known that during weeks around equinoxes fissures form in Earth’s magnetosphere. Solar wind can pour through the gaps to fuel bright displays of Arctic lights.

During these displays, streams of solar wind barely graze Earth’s magnetic field. At these times of year, that’s all it takes. Even a gentle gust of solar wind can breach our planet’s magnetic defenses.

This is called the “Russell-McPherron effect,” named after the researchers who first explained it. The cracks are opened by the solar wind itself.  South-pointing magnetic fields inside the solar wind oppose earth’s north-pointing magnetic field. The two, N vs. S, partially cancel one another, weakening our planet’s magnetic defenses.

This cancellation can happen at any time of year, but it happens with greatest effect around the equinoxes. A 75-year study shows that March is the most geomagnetically active month of the year, followed closely by September-October as direct result of “equinox cracks.”

NASA and European spacecraft have been detecting these cracks for years. Small ones are about the size of California, and many are wider than the entire planet. While the cracks are open, magnetic fields on earth are connected to those on the sun.

Theoretically, it would be possible to pick a magnetic field line on the ground and follow it all the way back to the solar surface. There is no danger to people on earth because our atmosphere protects us, intercepting the rain of particles. The afterglow of this shielding action is called the “aurora borealis.” [3]

We have all seen pictures and video of the Aroura from earth. This is what it can look like from outer space. Looks a lot like a wormhole does it not?

Click the arrow to toggle the video on / off.

Earth’s magnetic field creates a ‘bubble’ around Earth that helps protect our planet from some of the more harmful effects of energetic particles streaming out from the sun in the solar wind. Some of the earliest hints of this interaction go back to the 1850s with the work of Richard Carrington, and in the early 1900s with the work of Kristian Birkeland and Carl Stormer.

That this field might form a type of ‘bubble’ around Earth was hypothesized by Sidney Chapman and Vincent Ferraro in the 1930s. The term ‘magnetosphere’ was applied to magnetic bubble by Thomas Gold in 1959. It wasn’t until the Space Age, when we sent the first probes to other planets, that we found clear evidence of their magnetic fields (though there were hints of a magnetic field for Jupiter in the 1950s, due to observations from radio telescopes).

The Voyager program, two spacecraft launched in 1977, and successors to the Pioneer 10 and 11 missions, completed flybys of the giant outer planets. They became the implementation of the ‘Grand Tour’ of the outer planets originally proposed in the late 1960s. The Voyagers provided some of the first detailed measurements of the strength, extent and diversity of the magnetospheres of the outer planets.

The visualizations below present simplified models of these planetary magnetospheres, designed to illustrate their scale, and basic features of their structure and impacts of the magnetic axes offset from the planetary rotation axes.

For this Earth visualization, note that the north magnetic pole points out of the southern hemisphere. For these visualizations, the magnetic field structure is represented by gold/copper lines. Some additional glyphs are provided to indicate some key directions in the field model.

  • The Yellow arrow points towards the sun. The magnetotail is pointed in the opposite direction.
  • The Cyan arrow represents the magnetic axis, usually tilted relative to the rotation axis. The arrow indicates the NORTH magnetic pole (convention has field lines moving north to south as the north pole of bar magnet (and compass pointer) points to the south magnetic pole).
  • The Blue arrow represents the north rotation axis. It is part of the 3-D axis glyph (red, green, and blue arrows) included to make the planetary rotation more apparent.
  • The semi-transparent grey mesh in the distance represents the boundary of the magnetosphere.

Click the arrow to toggle the video on / off.

Earth’s magnetosphere near the time of the equinox.

Earth’s magnetosphere near the time of the summer solstice

Earth’s magnetosphere near the time of the winter solstice

NASA Scientific Visualization Studio                                    Earth’s Magnetosphere

It certainly appears that the bulk of the ingredients necessary for a wormhole to occur are all around us every day. Putting all of it together in just the right portions seems to be the issue. To find the wormhole, we must look in the right places and at the right times, in the right direction.  Knowing all this certainly strengthens the methodology presented in my books.  It is clearly possible that during equinox events, at certain locations on earth, everything comes together that makes a wormhole open.

[1] SciTechDaily. Physicists Create a Magnetic Wormhole for the First Time. By Universitat Autònoma  de    Barcelona. September 3, 2015

[2] National Geographic. Encyclopedia Entry: Equinox

[3] Spaceweatherarchive.com. “Equinox Cracks” Forming in Earth’s Magnetic Field. Dr. Tony Phillips. March 2018