We know that the field of physics has numerous aspects that make it quite difficult for most people to understand. One of these aspects is the gravitational waves. These waves were predicted by the scientist Albert Einstein and they were discovered 100 years after their prediction. They represent a breakthrough for science in Einstein's theory of relativity.
Therefore, we are going to dedicate this article to tell you everything you need to know about gravitational waves, their characteristics and importance.
What are gravitational waves
We are talking about the representation of a disturbance in space-time that is generated by the existence of an accelerated massive body producing an expansion of energy in all directions at the speed of light. The phenomenon of gravitational waves allows space-time to stretch without being able to return to its original state. It also generates microscopic disturbances that can only be perceived in advanced scientific laboratories. All gravitational disturbance is capable of propagating at the speed of light.
They usually occur between two or more spatial bodies, producing a propagation of energy that is transported in all directions. It is a phenomenon that causes space-time to expand so much that it can return to its original flat state. The discovery of gravitational waves has made a significant contribution to the study of space through its waves. Thanks to this, other models can be proposed to understand the behavior of space and all its characteristics.
Discovery
Although one of the last hypotheses of Albert Einstein in his theory of relativity was the description of gravitational waves, they were detected a century later. Thus, the existence of these gravitational waves that Einstein pointed out can be corroboratedAccording to this scientist, the existence of this type of waves came from a mathematical derivation that stated that no object or signal could travel faster than light.
Already a century later in 2014, the BICEP2 observatory announced the discovery of and terraces of gravitational waves that were generated during the expansion of the universe in the Big Bang. A short time later, this news was refuted when it was seen that this was not real.
A year later, scientists from the LIGO experiment were able to detect these waves. This way, they were sure to have enough people in attendance to announce the news. Therefore, Although the discovery was in 2015, they announced it in 2016.
Main characteristics and origin of gravitational waves
We are going to see what are the most representative characteristics that make gravitational waves one of the most important discoveries in the field of physics in recent years. These are disturbances that alter the dimensions of space-time in such a way that it manages to dilate it without allowing it to return to its original state. The main characteristic is that they are capable of propagating at the speed of light and in all directions. They are transverse waves and can be polarized. This means that it also has a magnetic function.
These waves can transport energy at high speed and in very distant spaces. Perhaps one of the doubts raised about gravitational waves is that its origin cannot be determined in its entirety. They can appear in different frequencies depending on the intensity of each one of them.
Although it is not entirely clear, there are many scientists trying to establish how gravitational waves originate. Let's see what are the possible situations in which they can be formed:
- When two or more very high mass space bodies interact with each other. These masses must be huge for the force of gravity to take effect.
- The product of the orbits of two black holes. You can find out more about this phenomenon in the article about supermassive black holes.
- They can be generated by the collision of two galaxies. Obviously, this is something that doesn't happen every day
- They can originate when the orbits of two neutrons coincide.
Detection and importance
Let's now briefly analyze how LIGO scientists were able to identify these types of waves. We know that they generate microscopic disturbances and can only be detected by highly technologically advanced devices. We must also keep in mind that these devices are very delicate. They are known as interferometers. They consist of a system of tunnels several kilometers long and arranged in an L-shape. Lasers pass through these kilometer-long tunnels, bouncing off mirrors and interfering when they cross. When a gravitational wave is produced, it can be perfectly detected by a deformation in space-time. This deformation occurs between the mirrors in the interferometer.
Other tools that can also detect gravitational waves are radio telescopes. Such radio telescopes can measure the light from pulsars. The importance of detecting these types of waves is what allows humans to better explore the universe. And is that thanks to these waves you can hear well the vibrations that expand in space-time. The discovery of these waves has made it possible to understand that the universe can be deformed and all deformations expand and contract throughout space with a wave form.
It should be noted that for gravitational waves to form, violent processes must occur, such as the collision of black holes. It is through the study of these waves that we can obtain information about these events and cataclysms that occur in the cosmos. All these phenomena can help us understand and explain many basic laws within the field of physics. Thanks to this, a great deal of information can be provided about space, its origin, and how stars are deformed or disappear. All this information can also be used to learn more about black holes. An example of a gravitational wave It is found in the explosion of a star, the collision of two meteorites or when a black hole is formed. It can also be found in a supernova explosion.
I hope that with this information you can learn more about gravitational waves and their characteristics.