Use neutinois to understand the core and density of the sun

According to Isna, Nasa Parker Solar Probe flew in December to 3.8 million miles in December and opposed the world to theest man.

Although this mission is a significant achievement in space research, scientists intend to read not only the sun’s surface, but also in their nucleus, as the sun’s domestic environment plays an important role in determining the environment in the climate and weather in space.

Scientists currently rely on theoretical models to understand the features of the sun’s density.

Now a new job is exploring the ability to learn the interior of the sun using neutrinos. The research shows that neutrinos during the nuclear missile can immediately inform the processes in the core of the sun, and this information can help further predict solar activities.

Catch the neutrino from the sun

The main particle of neutrino, electric and rarely interacting. Neutrino usually means “neutral small” that moves quickly, moving rapidly near the speed of light and moving through almost any human material. Neutrinos are very small but zero.

Since neutrinos are not electrical loads, it is not affected by electromagnetic forces. Neutrinos is affected by a weak nuclear power that is shorter than the electromagnetic force compared to the electromagnetic force. Therefore, they can travel very long distances within the materials without interaction.

Sun Neutrino also tastes an electro produced as a product of nuclear combination in the sun. The solar neutriine forms the largest flow of neutrins observed from natural resources on earth, with a great difference.

In general, scientists use the Standard Solar Model (SSM) to understand the internal activity of the Sun and predict the changes in the nucleus over time. This is a theoretical model based on the basic principles of observations prepared by physics and scientists.

However, the authors of this new study offer a more direct approach. The solar core constantly spreads neutrino for constant fusion reactions. This small, almost mass particles run away from the sun and the earth, while others reach our planet.

The authors of the study are said here on earth, these neutrins can be determined by the Underground Observatory and are used to monitor the internal activities of the Sun.

Something special about Neutrinos, carries environmental information and features when you pass something. This happens when they travel within the sun. They change from another to another. These changes, called “fluctuations”, are affected by the density of the sun passing.

Learning the different energy fluctuations, scientists can explain the details of the structure of the sun’s density outside the offer of traditional models.

The crowd refers to how the sun mass is distributed in different depths. For example, how strong the core was closed to the surface.

Some researchers already offered the use of light waste to study the sun’s environment. However, photons can run through the intense sun core that deactivated for centuries and immediately. On the other hand, neutrinos are almost through the sun, gaining concepts from the sun, and immediately live in the sun.

New developments are required

Although the neutri was interested in the work of the work, it is not yet clear how much scientists can learn about the structure of the sun. Although existing neutrino tests provide valuable concepts, you need more information for accurate measurements.

Therefore, scientists expect more information about future tests such as Juno and Dune. Stands for the former “Neutrino Jiangman Underground Observatory”. This is an experience designed to learn nuclear reactors in China.

The last, “Deep Underground Neutrino Test”, both artificial sources (like particles) and natural resources) and natural resources) (for example, the determination of rare sunrings, including HEP neutrinos.

This work is published in the archive database and has not yet been reviewed.

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