Only one merger of neutron stars and five incredible issues

Date:

2017-11-03 16:00:13

Views:

3711

Rating:

1Like 0Dislike

Share:

Only one merger of neutron stars and five incredible issues Source:

17 Aug Earth made up both light and gravitational-wave signals from merging neutron stars. For the first time in the history of the pair of signals was registered by the people. Phase spiral whirling was observed by the detectors LIGO and Virgo for 30 seconds, 100 times longer than previous gravitational wave signals. Also, this signal was the closest we've seen is only 130 million light-years from us. While the Observatory was recovered from the signals of huge amount of information, created a new task: to bring all this to the theoretical meaningfulness.

Relatively speaking, we heard the sound but did not know where he is.

Ethan Siegel sat down with Chris FYROM National laboratory Los Alamos, an expert on supernovae, neutron stars and gamma ray bursts, which works on the theoretical side of these objects and events. Nobody expected that LIGO and Virgo will be able to register the merger at such an early stage of the project, only two years after the first successful registration well before reaching the planned sensitivity. But they not only saw the signals, but were able to pinpoint their source and confluence that brought us a lot of surprises.

Here are five of the biggest new issues raised by this discovery.

the

How often are the merger of neutron stars?

Before we saw this event, we had two ways to assess the frequency of mergers of neutron holes: measurements of binary neutron stars in our galaxy (like pulsars) and our theoretical models of star formation, supernovae and their remains. All this gives us a rating of 100 such mergers occurs annually within a cubic gigaparsec of space.

Watch for a new event has provided us with a first evaluation of the observed frequency of the Aurora, and she's ten times more than expected. We thought that we need LIGO, has reached the limit sensitivity (halfway) to see something, and then another, and three additional detector to determine the exact location. And we managed not only early to see him, but also to localize the first attempt. So the question is: we were just lucky to see this event, or the frequency thereof is much higher than we thought? If above, then what is incorrect with our theoretical model? Next year LIGO will be spent on modernization, and theorists will have a little time to think.

the

That causes the substance to be disposed of in the process of merging in such numbers?

Our best theoretical models predicted that the merger of stars of this kind will be accompanied by bright light in the UV and optical parts of the spectrum during the day, and then will fade and disappear. But instead, the glow lasted two days before beginning to fade, and we, of course, have questions. Bright glow, which lasted so long suggests that the wind disk around the stars threw 30-40 Jupiter masses in a substance. According to our data, the substances should be less than twice or even eight times.

What is so unusual about these emissions? To simulate such a merger, you need to include many different physics:

the
    the
  • hydrodynamics
  • the
  • GTR
  • the
  • magnetic field
  • the
  • equation of state of matter at nuclear densities
  • the
  • interaction with neutrinos

...and much more. Different codes model these components with different levels of difficulty, and we don't know which of the components responsible for these winds and emissions. Find the right is a problem for theorists, and we have to accept the fact that we were the first to measure the merger of neutron stars... and got a surprise.

In the last moments of the merger of two neutron stars emit not only gravitational waves, but also the catastrophic explosion that reverberates throughout the electromagnetic spectrum. And if the product is a neutron star, a black hole or something exotic secondary, the transition state is unknown to us

the

Produced whether the merger of a supermassive neutron star?

To get enough of lost weight from the merger of neutron stars, it is necessary that the product of this merger generates sufficient energy of the appropriate type to blow away the mass from the surrounding disk stars. Based on the observed gravitational wave signal, we can say that this merger has created an object with a mass of 2.74 solar, which is much higher than the solar maximum mass that can be non-rotating neutron star. That is, if nuclear matter behaves as it is expected, the merging of two neutron stars would lead to the emergence of a black hole.

a Neutron star is one of the densest collections of matter in the Universe, but its mass is an upper limit. Exceed it — and the neutron star collapses again with the formation of a black hole

If the nucleus of this object immediately after the merger had shrunk to a black hole, no release would not exist. If, instead, it became a supermassive neutron star, it would have to rotate extremely rapidly, since a large angular momentum would increase the maximum mass by 10-15%. The problem is, what if we got so rapidly rotating supermassive neutron star, it would have to be a Magnetar with an extremely powerful magnetic field that is a quadrillion times more powerful than the field on the surface of the Earth. But Magnetar quickly stops spinning and needs to collapse into a black hole in 50 milliseconds; our own observations of magnetic fields, viscosity and heating, which threw the weight, show that the object has existed for hundreds of milliseconds.

Something's not right here. Either we have a rapidly rotating neutron star, which for some reason is not a Magnetar, either we have to be emitted for hundreds of milliseconds, and our physics does not give us the answer. Thus, even for a short while, most likely, we had a supermassive neutron star, followed by the black hole. If both are true, we are dealing with the most massive neutron star and most low-mass black hole in the history of observations!

the

If these neutron stars would be more massive, it would merge invisible?

There is a limit to how massive may be the neutron star, and if you add weight, you get exactly the black hole. This limit is 2.5 solar masses for non-rotating neutron star means that if the total mass of the merger will be lower, you will almost certainly be left with a neutron star after the merger, which will lead to strong and long ultraviolet and optical signals, which we saw in this case. On the other hand, if you go up to 2.9 solar masses, immediately after the merger will form a black hole, it's probably no ultraviolet and optical variations.

Anyway, our first merger of neutron stars was in the middle of this range, when you may receive a supermassive neutron star that generates the emissions and the optical and ultraviolet signals for a short time. If Magnetar formed with less massive mergers? And more massive — just come to black holes and are invisible at these wavelengths? How rare or common these three categories of merger: ordinary neutron stars, supermassive neutron stars and black holes? A year LIGO and Virgo will search for answers to these questions, and theorists will be the year to bring their model in line with forecasts.

the

That leads to the fact that gamma ray bursts are so bright in many directions, and not in the cone?

This question is very complicated. On the one hand, the discovery confirmed what had long been suspected but could not prove that merging neutron stars produce gamma-ray bursts. But we always believed that gamma-ray bursts emit gamma rays only in a narrow conical form, 10-15 degrees in diameter. Now we know, because of the provisions of the merger and the value of gravitational waves, gamma-ray bursts go at a 30 degree angle from our line of sight, but we observed a powerful gamma-ray signal.

The Nature of gamma-ray bursts needs to change. The task of theorists is to explain why the physics of these objects is so different from predicted by our models.

the

a Separate line: how opaque/transparent heavy elements?

When it comes to the heaviest elements in the periodic table, we know that they are produced for the most part not a supernova, namely the mergers of black holes. But to get the spectra of heavy elements from a distance of 100 million light years, you need to understand their transparency. This includes the physical understanding of the atomic transitions of electrons in the orbitals of an atom in an astronomical environment. First we have the environment to test how astronomy overlaps with nuclear physics, and follow-up merger should allow us to answer the question of opacity and transparency in particular.

It is possible that the merger of neutron stars happens all the time, and when LIGO will reach the planned level of sensitivity, we will find tens of mergers per year. It is also possible that this event was extremely rare and we are lucky to see only one for the year even after the settings are updated. The next ten years, theoretical physicists spend searching for answers to the above questions.

The Future of astronomy lies before us. Gravitational waves — a new, completely independent way of exploring the sky and mapping the sky with gravitational waves with the traditional astronomical maps, we are ready to answer the questions they never dared ask a week ago.

...

Recommended

Can genes create the perfect diet for you?

Can genes create the perfect diet for you?

Diet on genotype can be a way out for many, but it still has a lot of questions Don't know what to do to lose weight? DNA tests promise to help you with this. They will be able to develop the most individual diet, because for this they will use the m...

How many extraterrestrial civilizations can exist nearby?

How many extraterrestrial civilizations can exist nearby?

If aliens exist, why don't we "hear" them? In the 12th episode of Cosmos, which aired on December 14, 1980, co-author and host Carl Sagan introduced viewers to the same equation of astronomer Frank Drake. Using it, he calculated the potential number ...

Why does the most poisonous plant in the world cause severe pain?

Why does the most poisonous plant in the world cause severe pain?

The pain caused to humans by the Gimpi-gympie plant can drive him crazy Many people consider Australia a very dangerous place full of poisonous creatures. And this is a perfectly correct idea, because this continent literally wants to kill everyone w...

Comments (0)

This article has no comment, be the first!

Add comment

Related News

Hemisphere — the best accommodation for Mars

Hemisphere — the best accommodation for Mars

to such conclusion came the jury of the international competition of City Design Mars 2017, the results of which first place was awarded to a team of developers and designers , who presented their vision of the Martian cities of t...

The algorithm AI has learned how to identify suicidal tendencies in MRI images

The algorithm AI has learned how to identify suicidal tendencies in MRI images

does the person desire to suicide? It is quite difficult to determine even if a patient talking to a therapist. According to statistics, about 80% of people who are thinking about suicide, don't talk about it to his psychoanalyst ...

Alzheimer's disease can be transmitted by blood transfusion

Alzheimer's disease can be transmitted by blood transfusion

is it Possible to get ? For many years doctors and scientists have tried to find the answer to this burning question. And then, finally, they came to a disappointing conclusion – it is possible. For a long time nobody could find a...

Problem drinkers: what's it like to be a vampire?

Problem drinkers: what's it like to be a vampire?

Jennifer Zaspel can't explain why you decided to poke your thumb into the vial mol. I just want to. It catches moths in the July night in the far East in Russia and caught calyptra (Calyptra), with brown curls on the wings, resemb...

In Voronezh will begin to produce private rocket engines

In Voronezh will begin to produce private rocket engines

Engineers Russian startups «NBC Space systems» independently developed liquid rocket engine, and now are going to build near Voronezh own factory to supply production on stream — told RIA Novosti the head of the co...

Chinese three-ton aerial truck AT200 made its first flight

Chinese three-ton aerial truck AT200 made its first flight

a Prototype AT200 cargo drone was developed by members of the Institute of engineering Thermophysics at the Chinese Academy of Sciences based on the new Zealand aircraft P750XL. The design is modified together with specialists fro...

Scientists have created a revolutionary new tool for editing genes

Scientists have created a revolutionary new tool for editing genes

the Famous technology that allows you to make changes in the genome of higher organisms, including humans, became a real breakthrough in genetics, and opened to scientists, almost endless possibilities for experimentation. It is b...

The neural network taught

The neural network taught "to read minds"

the Developers at Purdue University created a neural network which is able to analyze fMRI brain scans taken during viewing of the video and then in real-time to determine what exactly people . the experiment involved three subj...

Artificial intelligence exists, and it's billions of years

Artificial intelligence exists, and it's billions of years

Susan Schneider from the University of Connecticut and the Institute for advanced study in Princeton — one of the few who seriously believes that artificial intelligence already exists, and for a long time. "I do not believe that ...

The U.S. military has developed a device to improve the functioning of the brain

The U.S. military has developed a device to improve the functioning of the brain

to improve your mental abilities, you need are known to "gnaw granite of science". But many are trying to find and easier way. And maybe, researchers from McGill University in Canada and researchers from HRL Laboratories have deve...

An experiment about 30 years, as scientists have observed the evolution of bacteria

An experiment about 30 years, as scientists have observed the evolution of bacteria

Perhaps this scientific experiment can rightly be called the most long-lasting in the field of observation of a living organism. Started in 1988, the American evolutionary biologist Richard Lenski. Together with his colleagues at ...

17 the next space missions that deserve your attention

17 the next space missions that deserve your attention

For a good half of the previous century, humanity had time to run in the boundless space of a set of scientific instruments. With a single purpose – to better understand this, it would seem, at first glance, completely lifeless va...

10 brilliant inventions that humans picked up from animals

10 brilliant inventions that humans picked up from animals

We are accustomed to the "miracles" of science and technology and often lose sight of that nature started to use some of them long before the first steam engine or the computer. New inventions often amaze and inspire us, but... ho...

"The Atlas of hell": the underground world exists, and scientists have just finished to compile the map

Lasciate ogni speranza, voi CH entrate — written on the gates of hell. "Abandon all hope ye who enter here". A great way to welcome a visitor to hell. But there is a real underworld, which, however, smaller dogs and sinners in boi...

Scientists have found the perfect place to build underground colonies on the moon

Scientists have found the perfect place to build underground colonies on the moon

For many years, scientists tried to understand whether the dark crater pit on the surface of the natural satellite of the Earth entrance in a network of underground caves that millions of years ago was filled with lava. Finally, r...

In Saudi Arabia, will start to produce electricity with the help of

In Saudi Arabia, will start to produce electricity with the help of "kites"

the Research team at Queen's University of science and technology on behalf of king Abdullah proposed a new method for the production of wind power. To do this, engineers positioning of the turbine is not near the Ground and in th...

On the orbit of the moon launch an inflatable living module

On the orbit of the moon launch an inflatable living module

the Private space company Bigelow Aerospace in cooperation with United Launch Alliance published , according to which plans to orbit the moon residential inflatable module by 2022. the carrier Rocket, which we plan to launch modu...

Gravitational waves

Gravitational waves "neutron stars": why is it the most important discovery of the year?

For several weeks raged rumors that scientists have recorded gravitational waves — tiny ripples in space and time — a new type that is not associated with the collision of black holes. And here we saw a similar wave produced by th...

Analysis which will predict the date of death of your heart

Analysis which will predict the date of death of your heart

Many clinical studies allow us to predict the health status and suggest that person waits in the future. But not long ago, scientists from Johns Hopkins University released new data, according to which information encoded in mitoc...

In Novosibirsk have learned to receive fuel from air and water

In Novosibirsk have learned to receive fuel from air and water

Search and development of alternative ways of getting fuel is a long time. And despite significant advances, many new methods often remain unprofitable. But recently, according to the publication, Siberian branch of the Russian Ac...