The auroras are light emanations from the Tzolk’in whose Source are the Tones of Creation. Light comes from sound.
The Maya did a great job of illuminating our DNA source for being HUMAN as the multidimensional universe. We are from the stars and were made to live in balance with the universe, not dominated by male or female, science or religion, but ART, creativity, imagination, and freedom. Anything else isn’t good enough for us.
AURORAS LOVE EQINOXES: The vernal equinox is only one day away. That’s good news because auroras love equinoxes. At this time of year, cracks form in Earth’s magnetic field. Even a weak stream of solar wind can penetrate to spark a good display. Aurora alerts: SMS Text.
ANOTHER DARK PLASMA ERUPTION: Warning: This post may give you a sense of déjà vu. On March 17th, a magnetic filament filled with dark plasma erupted from the southwestern quadrant of the sun:
This is almost identical to a dark plasma eruption last week. The March 11th blast threw a CME at our planet and sparked G2-class geomagnetic storms when it arrived 3 days later. Auroras were sighted in both hemispheres. (I already posted on what this actually was in Tzolkonic terms)
The March 17th eruption might do the same. NOAA forecasters say a CME is on the way and it could arrive on March 20th. Stay tuned for updates. Aurora alerts: SMS Text.
Could This be the Reason? To Uplevel all DNA Frequency
Gamma brain waves have the highest frequency among all brain waves. They are associated with high levels of thought and focus. They can have different effects depending on their levels in your brain: If your brain produces high levels of gamma waves, you tend to be happier and more receptive.
A record-breaking gamma-ray burst detected in October 2022 has now been described as a one-in-a-thousand years event.
It’s called GRB 221009A, and with up to 18 teraelectronvolts of energy packed in its emissions of light, it’s considered the most powerful gamma-ray burst on record.
We’ve been waiting to learn more about this incredible explosion, and now the analyses have started to arrive on preprint server arXiv, with a trio of papers submitted to The Astrophysical Journal Letters.
According to the analyses, this exceptional burst of light is breaking rules: the light curve of its afterglow doesn’t neatly adhere to theoretical descriptions of how it should go, suggesting that there’s something interesting and unique about GRB 221009A.
To recap, gamma-ray bursts are the most violent explosions in the universe, erupting in fire and fury so powerful they release more energy than the sun would in 10 billion years. The outbursts of electromagnetic radiation are caused by cataclysmic events: the supernova or hypernova explosions massive stars undergo at the end of their lifetimes, or collisions of binary systems involving at least one neutron star.
See the link to read more…
The obscured “zone of avoidance” in space is a place of mystery, and scientists are peering at what’s inside it.
November 3, 2022, 9:49am
The VISTA Telescope. Image: MARTIN BERNETTI / Staff via Getty Images
Scientists have discovered a huge “extragalactic structure” hidden behind the Milky Way in a mysterious area of the sky known as the “zone of avoidance” because it is obscured by our own galaxy’s opaque bulge, according to a new preprint study. The discovery of the structure, which appears to be a large galaxy cluster, helps to fill in this shadowy part of our cosmic map, which may as well be labeled “here be space dragons” because it is so unclear what exists there. (The Draco? Red Dragon Tribe banned from our sector, kept out by The Guardians)
The star stuff that makes up our galaxy, the Milky Way, is distributed inside a thin plane that orbits around a central bulge that contains a supermassive black hole. The galactic plane and bulge are packed with stars, dust, and gas that block our view of whatever is on the other side. Though scientists have been able to use different wavelengths to peer through the zone of avoidance (ZoA), a region that obscures 10 to 20 percent of the sky, most of this region still remains out of view.
Now, a team led by Daniela Galdeano, an astronomer at the National University of San Juan in Argentina, report the discovery of “ a new galaxy cluster, VVVGCl-B J181435-381432, behind the Milky Way bulge,” which helps to complete “the picture of the large scale structure in this still little explored area of the sky,” according to a study posted this week on the preprint server arxiv. (The study has been submitted to the journal Astronomy & Astrophysics but has not yet been peer-reviewed.)“This result is very satisfying for us,” said Galdeano in an email to Motherboard. “For many years, the ZoA had a lack of information, but now with new studies we could cover a little region of the sky, and in the near future, a bigger region with data.”“It is incredibly difficult to find galaxies behind the galactic plane, because of the high density of stars and also the obscuration by dust along the line of sight, and this looked like one of the most prominent candidates,” noted Dante Minniti, director of the Institute of Astrophysics at Andrés Bello National University in Chile and a co-author of the study, in another email to Motherboard. “We suspected the presence of structure,” he added, “but since this was a ‘blind region’ before, this discovery of a new galaxy cluster was a nice confirmation.”
Galdeano and her colleagues were able to spot this cluster within the ZoA (zone of avoidance) using the VVV Survey, a project that scans the Milky Way bulge at infrared wavelengths using the European Southern Observatory’s Visible and Infrared Survey Telescope for Astronomy (VISTA) in Paranal, Chile. Whereas the galactic plane blocks out almost all visible light in the zone, longer wavelengths of light, including in the infrared band, are able to travel through the Milky Way’s haze to reach telescopes on Earth.
The team previously used the infrared glow captured in the VVV Survey to probe an “overdensity region” in the ZOA that suggested the presence of “new extragalactic sources that have not been identified by other catalogs,” according to a 2021 study also led by Galdeano. To zoom in on the tantalizing region, the researchers used a near-infrared instrument called FLAMINGOS-2, which is on the Gemini South telescope in Chile, to identify measurements called “redshifts” that can be used to estimate the distance and velocities of its objects in space.
The results exposed new details about five galaxies some three billion light years away, which the researchers think are part of a much bigger cluster. “I started working with VVV data in 2017, and from the beginning we noticed an excess of galaxies in a small region of the sky,” Galdeano said. “During all these years we had the suspicion that these galaxies belonged to the same structure. These suspicions were based on photometric techniques, so we could not confirm these conclusions.”
“It is for this reason that we requested follow-up telescope time to obtain the spectra of the brightest galaxies in these overdensity regions with the aim to confirm or discard our suspicions,” she added. “Fortunately we could confirm our conclusions, so we are very happy and proud with these results.”The team estimated that the cluster contains about 58 galaxies, but it will take more observations to be sure of its mass and contents. “It looks quite big, but it is difficult to tell yet how massive,” Minniti said. “We need more spectroscopic redshifts to estimate the mass of this cluster.”
The discovery of this cluster offers an exciting glimpse behind the Milky Way, and scientists will need to continue pulling back this curtain in order to understand our place in space. For instance, in addition to hidden galaxy clusters, the ZoA contains the so-called Great Attractor, an unidentified gravitational anomaly that is tugging galaxies and clusters toward it. The nature of this huge attractor is a mystery that can only be solved by more observations and research.To that end, it’s unclear whether we will ever be able to figure out what lies in this eclipsed zone, but regardless, Minniti noted that he and his colleagues “are prepared to be surprised.”“There are some areas that have a lot of dust and stars, so the absorption [of light] is very high, and this is an obstacle that is very difficult,” Galdeano concluded. “Nevertheless, we work hard to explore these mysterious regions, so we hope to have an approach and find out interesting results in the near future.”
The scientists don’t PRESUME binary stars. They exist in 85% of star systems. They are ideal and are needed to bring balance to the frequency.
How rare is a binary star?
Actually, most stars are in binary systems. Perhaps up to 85% of stars are in binary systems with some in triple or even higher-multiple systems. The orbital periods and distances of binaries vary enormously.
For some time now, astronomers have known that the majority of systems in our galaxy consist of binary pairs rather than individual stars. What’s more, in recent decades, research has revealed that stars like our Sun are actually born in clusters within solar nebulas. Aug 19, 2020
We likely have the Draco and the Reptilians to thank for busting into our system when the grid came down during the Maldek explosion and trying to take over. They are very male-dominated and patriarchal so Lucifer B.S. had his way on Maldek and Earth. It wasn’t supposed to be this way and caused great error and imbalance. And Lucifer was a highly trusted system ruler, an angel of light. We know how that turned out.
Binary stars are two stars orbiting a common center of mass. The brighter star is officially classified as the primary star, while the dimmer of the two is the secondary (classified as A and B respectively). In cases where the stars are of equal brightness, the designation given by the discoverer is respected. Jan 17, 2018
The Tzolkin pulses to the binary triplet configuration 2/3, which holds the 13:20 coordinate but sprockets with 3D 12:60. It’s explained in my book, “Time is DNA”.
Everything about our Harmonic is BINARY (+/-). We are binary and bilateral in our bodies, our system is currently dualistic. The bridge is 2, 3, and 4. 12:60 divides by 2, 3 and 4. 13 is a prime number and 20 is exponential as well as being divisible by 2, 4, 5 and 10. 13:20 is going to move our DNA into fifth density. 5 is dynamic throughout the Tzolkin.