The most attracting bodies of the universe- The MAGNETARS

INTRODUCTION

 The MAGNETARS: formally known as the neutron stars are formed just by normal stars, but how?
this is what I am going to tell you in this blog, also you will get to know amazing facts about these mysterious objects of the universe Neutron stars are one of the most extreme and violent things in the universe. Giant atomic nuclei, only a few kilometres in diameter but as massive as stars, and they owe their existence to the death of something majestic.

Neutron Stars: What are these?

Stars exist because of a fragile balance, the mass of trillions of tons of hot plasma are being pulled inwards by gravity and squeeze material together with so much force that nuclei fuse. Hydrogen fuses into Helium, this releases energy which pushes against gravity and tries to escape. As long as this balance exists, stars are pretty stable. Eventually, the hydrogen will be exhausted. Medium stars like our Sun, go through a giant phase, where they burn helium into carbon and oxygen before they eventually turn into white dwarfs. But in stars, many times the mass of our Sun things get interesting when helium gets exhausted.

For a moment, the balance of pressure and radiation tips, and gravity wins squeezing the star tighter than before. The core burns hotter and faster, while the outer layers of the star swell by hundreds of times fusing heavier and heavier elements, Carbon burns to Neon in centuries, neon to oxygen in a year, oxygen to silicon in months, and silicon to iron in a day. And then death. Iron is nuclear ash. It has no energy to give and cannot be fused. The fusion suddenly stops, and the balance ends. Without the outward pressure from fusion, the core is crushed by the enormous weight of the star above it. What happens now is awesome and scary. Particles like electrons, and protons, really don't want to be near each other, but the pressure of the collapsing star is so great that electrons and protons fuse into neutrons, which then get squeezed together as tightly as in atomic nuclei. An iron ball, the size of the Earth, is squeezed into a ball of pure nuclear matter, the size of a city. But not just the core, the whole star implodes, gravity pulling the outer layers in at 25% the speed of light. This implosion bounces off the iron core,  producing a shock wave that explodes outwards and catapults the rest of the star into space. This is what we call a supernova explosion and it will outshine entire galaxies. What remains of the star is now a neutron star and its mass is around million times the mass of the Earth but compresses to an object about 25 kilometres wide, its so dense that the mass of all living humans would fir into some cubic centimetre of neutron star matter. That's roughly a billion tons in a space the size of a sugar cube. Put another way, that's Mount Everest in a cup of coffee

More Facts about Neutron Star!

From the outside, a neutron star is unbelievably extreme. Its gravity is the strongest, outside black holes, and, if it were any denser, it would become one. Light is bend around it, meaning you can see the front and parts of the back. Their surface reach 1,000,000 degrees Celsius, compared to a measly 6,000 degrees for our Sun.

What is inside a Neutron Star?

 Okay, let's look inside a neutron star. Although these giant nuclei are stars, In many ways, they are also like planets, with solid crusts over a liquid core, the crust is extremely hot. The outermost layers are made up of iron left over from the supernova, squeezed together in a crystal lattice, with a sea of electrons flowing through them, Going deeper, gravity squeezes nuclei closer together. We find fewer and fewer protons, as most merge to neutrons. Until we reach the base of the crust, here nuclei are squeezed together so hard that they start to touch. Protons and neutrons rearrange, making long cylinders or sheets, enormous nuclei with millions of protons and neutrons shaped like spaghetti which physicists call nuclear pasta. Nuclear pasta is so dense that it may be the strongest material in the universe, basically Unbreakable! Lumps of pasta inside a neutron star can even make mountains at most a few centimetres high, but many times as massive as Himalayas. Eventually, beneath the pasta, we reach the core. We are not really sure what the properties of matter are when they are squeezed this hard. Protons and Neutrons might dissolve into an ocean of quarks, a so called quark-gluon plasma. Some of those quarks might turn into strange quarks, making a sort of strange matter, with properties so extreme, that it can't be explained in this post, or may be they just stay protons and neutrons. No one knows for sure and that's why we do science. That's all pretty heavy stuff, literally, so let's get back out into space.


 When neutron stars first collapse, they begin to spin very, very fast, like a ballerina pulling her arms in. Neutron stars are celestial ballerinas, spinning many times per second. This creates pulses because their magnetic field creates a beam of radio waves, which passes every time they spin. These radio pulsars are the best-known type of neutron star. About 2,000 are known off in the Milky Way Galaxy, these magnetic fields are the strongest in the universe comparing to Earth's magnetic field which is 0.00005 Tesla, the magnetic field of a neutron star is around 100,000,000,000 Tesla which is a quadrillion times stronger than Earth's after they're born. They are called magnetars until they calm down a little. But the absolute best kind of neutron stars are friends with other neutron stars. By radiating away energy as gravitational waves, ripples in spacetime, their orbits can decay, and they can crash into and kill each other in a kilonova explosion that spews out a lot of their guts. When they do, the conditions become so extreme that, for a moment, heavy nuclei are made again. Tis not fusion putting nuclei together this time, but heavy neutron-rich matter falling apart and reassembling. Only, very recently, we've learned that this is probably the origin of most of the heavy elements in the universe, like gold, uranium, platinum and dozens more like holmium, bismuth and iridium. So, now two neutron stars collapse and become a black hole, dying yet again.

Conclusion

So, after reading this post, you must've got to know many things about neutron stars as they are one of the most mysterious objects in the universe
If you have any doubts regarding the post or want to give any suggestions or want me to write on some topic, you can write in the comment section below

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