Neutron Stars Trillions of Times Denser than the Sun

Super fact 78 : A neutron star is vastly denser than the Sun, typically hundreds of trillions of times denser. In addition, the gravity on a neutron star is a few billion times stronger than on the Sun’s surface. Therefore, a cubic meter of neutron star material weighs roughly septillion times (1,000,000,000,000,000,000,000,000 times) more than a cubic meter of Sun’s average density material placed on the sun’s surface.

A neutron star is the core of a collapsed supergiant star. It is the remnant of a supernova explosion of a massive star. The original star typically has a mass of 10 to 25 solar masses and the core remnant a mass between 1.4 to 2 times the mass of the sun but confined into a sphere with a diameter of on average 12 miles. That is quite small for so much mass and will result in a material so compressed that it is hundreds of trillions of times denser than our sun. A tablespoonful of a neutron star would have the same mass as Mount Everest.

The neutron star is so compressed that it has the density of an atomic nucleus. The extreme pressure causes the electrons and protons in normal matter to combine into neutrons. If the core remnant would be a bit more than 2.2 times the mass of the sun it would turn into a black hole. In that sense a neutron star is the last stop before a collapsing giant star becomes a black hole.

Four pictures: 1: massive star with an inner core. 2: Inner core implodes under gravity. 3: Gravity smashes electrons and protons together, forming neutrons, and releasing a shower of neutrinos. Outer layers slosh violently from standing accretion shock instability. 4: Outer layers implode and collapse onto the inner core at 25% of the speed of light.
Simplified representation of the formation of neutron stars. BedrockPerson, CC BY-SA 4.0 <https://creativecommons.org/licenses/by-sa/4.0&gt;, via Wikimedia Commons

Let’s do the calculation. Let’s say the density of a neutron star is 200 trillion times that of the Sun, and the gravity is 5 billion times stronger (100 billion to 200 billion times stronger than Earth’s gravity). That results in the matter on a neutron star weighing a septillion time (1,000,000,000,000,000,000,000,000 times) more than the same volume of matter of the average density of the sun on the sun’s surface. I should say I asked ChatGPT to make this calculation using its own numbers, and it got roughly the same answer.

I can add that the average density of the sun is 1.4 grams per cubic centimeter which is less than that the average density of the earth, which is 5.5 grams per cubic centimeter. On the other hand, the gravity on the Sun’s surface is about 28 times stronger than on Earth, so if you make these comparisons with Earth instead of the sun the numbers get seven times worse, or seven septillion (7,000,000,000,000,000,000,000,000). I can add that even though neutron stars are extreme they are not rare. NASA estimates that there are a billion of them in our Milky Way Galaxy.

I consider this a super fact because it is true, and it is somewhat important to be aware of the extremes of the Universe. It tells us about who we are and our place in the Universe. A septillion times more weight, for the same volume and densities hundreds of trillions of times larger than the Sun or the Earth are surprising and shocking numbers.

A bright blue spherical neutron star on the background of the night sky.
Neutron star on a black background. Superdense remnant of a star in space. A small star with a huge mass. ShutterstockAsset id: 2369752833 by Nazarii_Neshcherenskyi

To watch a two minute video about Neutron stars, see below.

Different Types of Neutron Stars

Neutron stars are extreme stars. They are small super dense stars with extreme gravitational fields. They are in a sense like a gigantic atomic nucleus. Perhaps it is not surprising that they are extreme in other ways as well. There are pulsars, neutron stars which emit twin beams of radiation from their magnetic poles. Those poles may not be precisely aligned with the neutron star’s rotation axis, so as the neutron star spins, the beams sweep across the sky, like beams from a lighthouse. To observers on Earth, this can make it look as though the pulsar’s light is pulsing on and off.

There are magnetars, neutron stars with extremely powerful magnetic fields trillions and quadrillion times stronger than Earth’s magnetic field at the surface. If one were to get close to Earth, at the distance about the same as the moon, you would see a small new star in the sky, as cars and other metallic objects lift from the ground and the magnetic strips of credit cards and computer hard drives are erased.

There are additional classes of neutron stars such as black widow pulsars, blasting a nearby star with radiation thus killing the star, soft gamma repeaters, magnetars emitting short burst of X-rays and gamma rays in irregular repeating patterns. There are binary neutron stars (two neutron stars orbiting each other) and they sometimes merge, collide, emitting detectable gravity waves. Click on the link to see a video visualization.

A bluish neutron star surrounded by impressive looking fields.
Magnetar – neutron star in deep space. For use with projects on science, research, and education. 3D illustration. Shutterstock Asset id: 1138434620 by Jurik Peter
At top there is some text stating “A neutron star is a dense core left behind after a massive star goes supernova and explodes. Though only about 10 to 20 miles (15 to 30 kilometers) wide, they can have three times the mass of our Sun, making them some of the densest objects in the universe, second only to black holes. A teaspoon of neutron star material would weigh 4 billion tons on Earth. There are several types of neutron stars.” : Below the text at the top there is a picture of a magnetar, a pulsar and a magnetar plus pulsar. The text for each picture says: Magnetar - A magnetar is a neutron star with a particularly strong magnetic field, about 1,000 times stronger than a normal neutron star. That's about a trillion times stronger than a normal neutron star. That's about a trillion times stronger than Earth's magnetic field and about 100 million times stronger than the most powerful magnets ever made by humans. Scientists have only discovered about 30 magnetars so far. Pulsar - Most of the roughly 3,000 known neutron stars are pulsars, which emit twin beams of radiation from their magnetic poles. Those poles may not be precisely aligned with the neutron star's rotation axis, so as the neutron star spins, the beams sweep across the sky, like beams from a lighthouse. To observers on Earth, this can make it look as though the pulsar's light is pulsing on and off. Magnetar + Pulsar – there are about six known neutron stars that are both pulsars and magnetars.
Courtesy NASA/JPL-Caltech, Attribution, via Wikimedia Commons

Other extreme stellar objects

To see the other Super Facts click here

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Author: thomasstigwikman

My name is Thomas Wikman. I am a software/robotics engineer with a background in physics. I am currently retired. I took early retirement. I am a dog lover, and especially a Leonberger lover, a home brewer, craft beer enthusiast, I’m learning French, and I am an avid reader. I live in Dallas, Texas, but I am originally from Sweden. I am married to Claudia, and we have three children. I have two blogs. The first feature the crazy adventures of our Leonberger Le Bronco von der Löwenhöhle as well as information on Leonbergers. The second blog, superfactful, feature information and facts I think are very interesting. With this blog I would like to create a list of facts that are accepted as true among the experts of the field and yet disputed amongst the public or highly surprising. These facts are special and in lieu of a better word I call them super-facts.

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