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Antimatter

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Introduction

Antimatter is a term used in particle physics to describe particles that have the same mass as their corresponding matter particles but opposite electric charge and other particle properties. When a particle and its antiparticle meet, they annihilate each other, giving rise to other particles or energy in the form of photon radiation.

Antiparticles

Most particles have a known, corresponding antiparticle. For example, the antiparticle of the electron is the positron, which has the same mass as the electron but carries a positive charge. Similarly, antiprotons are the antiparticles of protons, carrying a negative charge.

Matter-Antimatter Annihilation

When a particle encounters its corresponding antiparticle, both particles can annihilate each other, usually resulting in the production of photons. The equation that describes this process is:

e^- + e^+ \rightarrow 2\gamma

where e^- is an electron, e^+ is a positron, and \gamma represents a photon.

In another process, known as Bhabha scattering, an electron-positron pair annihilate and later result in the scattering of a new electron-positron pair. This process can be described as:

e^- + e^+ \rightarrow e^- + e^+

Feynman diagram depicting Bhabha scattering. When matter and corresponding antimatter collide, they annihilate. In this example, the electron (matter) annihilates with the positron (antimatter). After some time, a new pair is produced as seen on the right-hand side of the diagram.
Feynman diagram depicting Bhabha scattering. When matter and corresponding antimatter collide, they annihilate. In this example, the electron (matter) annihilates with the positron (antimatter). After some time, a new pair is produced as seen on the right-hand side of the diagram.

Antimatter in the Universe

One of the great mysteries in cosmology is the apparent asymmetry between matter and antimatter in the observable universe. According to the Big Bang theory, equal amounts of matter and antimatter should have been produced. However, we observe a significant predominance of matter, known as the baryon asymmetry problem.

Applications

Antimatter has practical applications in medical imaging, specifically in positron emission tomography (PET). In PET, a positron-emitting radionuclide is introduced into the body, and the annihilation radiation resulting from positron-electron interactions is used to create detailed images of the body. Antimatter has also been considered for use in propulsion systems for spacecraft due to the large amount of energy released in matter-antimatter annihilations, but this remains a theoretical concept at this point due to the difficulty and cost of producing and storing antimatter.

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One response to “Antimatter”

  1. Pions – Tru Physics

    […] pion consists of a quark and an antiquark. Specifically, the is composed of an up quark and a down antiquark the is composed of a down […]

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