Strange, invisible, spooky from
Dark matter from
It is a mysterious and unclear material form that accounts for about 27% of the mass and energy of the observable universe. from
Dark matter from
It is considered to be an unusual form of matter that does not interact with light or any other form of electromagnetic radiation, which is why it is transparent and invisible. Although it does not, it cannot be directly observed, but its existence and nature are inferred from its visible gravity effects, such as the movement of visible matter, the gravitational lens, the large-scale structure of the universe, and its radiation to the cosmic microwave background [CMB]. The impact - this is the legacy of the birth of the Big Bang nearly 14 billion years ago. Some people say that the universe may be more strange than we thought, and in August 2016, the team of astronomers added more credibility to this hypothesis. Their observations show that dark galaxies are called from
蜻蜓44 from
Extremely flawed by its quality, it consists almost entirely of mystery, ghosts and invisibility from
Dark matter.
The team of international astronomers uses the world's most powerful telescope to make an important discovery of this huge and very dim galaxy, apparently composed of 99.99% of strange "dark" matter. Use from
WM Keck Observatory from
with from
Gemini North from
Telescope - both are dormant from
Maunakea from
Hawaii's volcano - astronomers can discover this strange object. The team's findings were published in the August 25, 2016 issue of the journal from
Journal of Astrophysics.
Even so from
蜻蜓44 from
The galaxy is reliably close to it, and because it is so stupid, it has managed to avoid the discoveries of astronomers for decades. It was originally discovered when it was first discovered in 2015. from
蜻蜓 telephoto array from
Staring at the sky area in the constellation from
coma from
. Further observations show that astronomers believe that the Milky Way must have more - from
a lot of from
More is - than satisfying the eyes. from
蜻蜓44 from
With so few stars, it will be quickly torn into pieces, unless there is something - from
Some intangible things from
- Hold it together.
The from
Standard model of cosmology from
Indicates that the total mass energy of the universe consists of 4.9% of "ordinary" atoms from
[heavy] from
Question, 26.8% from
Dark matter, from
And 68.3% from
Dark energy. from
The from
Dark energy from
It constitutes the share of the lion in the universe, more mysterious than it from
Dark matter. from
Currently the most popular explanation from
Dark matter from
Propose it is the property of the space itself, and it is causing the universe from
accelerate from
In its expansion. The so-called "ordinary" atomic matter, the gnome of the universe garbage, is very special. The literal meaning of the atomic problem from
all from
Elements listed in familiar elements from
Journal table from
And these from
Baryon from
Elements make the world we are familiar with and life itself possible. The iron in the blood, the calcium in the bones, the oxygen you breathe, the sand under your feet, the water you drink, are from
all from
It consists of so-called "ordinary" things. Most of these elements are cooked in the heart of the cosmic star's burning heart - in the big bang only hydrogen, helium and a small amount of lithium and strontium are produced. We are like stars.
Invisible, ghostly
According to from
Standard model from
Forming a cosmic structure, particle from
Dark matter from
Originally dancing together on gravity, forming a crowded place in space, this is called a from
Dark matter halo from
. Over time, these from
Dark halo from
Rise - an irresistible attraction with a strong gravitational temptation - the original, primitive, mainly hydrogen cloud. Hydrogen is the most abundant and lightest atomic element in the entire observable universe. Due to this ancient beginning, stars and galaxies appear in the cold and darkness.
The first galaxies formed in the universe are mostly dark, opaque and amorphous structures. The silent, rolling ancient gas clouds gather together and are then swept by people, the phantom-like halo of the heart, invisible from
Dark matter. from
Sometimes, the first nascent glory and gleaming baby stars were born, and their new flames and burning flames illuminate the first galaxy as an ancient stellar nursery.
Dark matter from
It is widely believed that existence is important because astronomers observe the masses of large celestial bodies [calculated from their gravitational interactions] and the masses determined by the observables they contain [such as gases, dust, and stars]. difference.
Exist from
Dark matter from
It was first proposed by Dutch astronomer Jan Oort [1900-1992] in 1932 to explain the orbital velocity of stars living in our Milky Way. In 1933, the Swiss-American astrophysicist Fritz Zwicky [1898-1974] of the California Institute of Technology [Caltech] in Pasadena, California, also proposed a singular form of transparent and very rich matter. Zwicky did this to explain the ghostly "insufficient quality" evidence lurking in the orbital velocities of distant galaxies. California Institute of Technology astrophysicist Horace W. Babcock [1912-2003] detected strong evidence from the Galaxy rotation curve in 1939, but he did not attribute his suggestive observations to from
Dark matter.
Atker, Dr. Vera Rubin [born 1938], was the first person to propose existence in the 1960s and 1970s. from
Dark matter from
Based on strong evidence from the galaxy rotation curve. Immediately after Dr. Rubin's research, other scientists made some important observations, showing that they are like phantoms. from
Dark matter from
Secretly plagued the universe. These new findings are based on observations, including from
Gravitational lens from
Background object consisting of foreground clusters of galaxies from
Bullet group, from
Distribution and temperature of extremely hot gases in galaxies and clusters - Recently - the anisotropic pattern seen in CMB radiation leaves behind the remains of the Big Bang. The anisotropy seen in CMB is caused by temperature changes in the neonatal universe. from
Gravitational lens from
This is a phenomenon that Albert Einstein proposed in his work. from
General relativity from
[1915] When he determines that gravity can distort time and space, the result bends and distorts the path of light through the universe - producing a lens-like effect.
Less than a billion years after the big bang, the galaxy ignited. In the ancient universe, mysterious and invisible from
Dark matter from
Grab the clouds that are mostly hydrogen and throw them in. These primitive gas clouds are destined to be the ancient cradle of the first stars, igniting an uncharacteristic, ruthless darkness and their new star flame.
Gradually, primitive, primitive gas and spooky non-atomic rotations, tumbling clouds from
Dark matter from
Through the ancient universe. Occasionally, they mix themselves to form the unique structure we observe today.
The from
Dark matter from
It is assumed to play an important role in today's cosmic structure formation and simulation of the birth and evolution of the Milky Way, as well as interpretation of the anisotropy seen in CMB. All the evidence collected so far indicates that there are many more things in the galaxy, the galaxy cluster, and the universe as a whole can be seen through electromagnetic signals.
The most widely accepted current theory suggests identity from
Dark matter from
Indicate that it is composed of from
Weakly interacting massive particles [WIMPS] from
Can only dance together by gravity and [to a lesser extent] from
Weak nuclear power from
This explains some forms of radioactive decay from
[two Eta decay] from
.
Even if there is a ghost from
Dark matter from
Most astronomers generally accept that a few astronomers recommend various modifications to the standard law. from
General relativity from
. These alternative models attempt to explain observations without citing additional, phantom-like things.
The darkest galaxy
In order to calculate the amount from
Dark matter from
Included in from
蜻蜓44 from
, the team of international astronomers used from
DEIMOS from
The instrument is mounted on top from
Keck II from
The star's speed is measured 33.5 hours in six nights so they can determine the quality of the galaxy. Then the team continues to use from
Gemini Multi-Target Spectrometer [GMOS] from
At 8 meters from
Gemini North Telescope from
In Maunakea, Hawaii, a circle of globular clusters from
蜻蜓44's from
The core is similar to the aura that surrounds our galaxy.
The actions of these stars tell you how many things, Dr. Pierter van Dokkum pointed out on August 25, 2016. from
Keck Observatory press release. from
" inside from
dragonfly from
The stars of the galaxy move very fast. So there is a huge difference: use from
Keck Observatory from
We found that the star movements performed much better than the stars themselves," he added. Dr. Van Dock is Yale University in New Haven, Connecticut.
Quality from
蜻蜓44 from
It is estimated to be about a trillion times the mass of the sun. This is about the same quality as our own large starlight Galaxy. However, only one percent of the percent is stellar and "ordinary" atomic matter; another 99.99% of the form is spooky, exotic, transparent from
Dark matter. from
Our Milky Way stars are more than a hundred times more than them. from
蜻蜓44.
It is a surprise to find a galaxy of the same quality as the Milky Way is completely dark. "We don't know how...
Orignal From: The darkest galaxy
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