Elementary particle

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Particle overview

Elementary particles, also known as fundamental particles, are the smallest known building blocks of the universe. They are entities that cannot be divided into smaller parts and are essential for the construction of more complex particles, such as protons and neutrons. The study of elementary particles falls under the domain of particle physics, a branch of physics that explores the nature of these particles and their interactions.

Overview[edit | edit source]

Elementary particles are categorized into two main groups: fermions and bosons. Fermions are the building blocks of matter, while bosons are force carriers that mediate interactions between particles.

Fermions[edit | edit source]

Fermions are divided into quarks and leptons. Quarks combine to form composite particles called hadrons, the most stable of which are protons and neutrons, the components of atomic nuclei. There are six types of quarks: up, down, charm, strange, top, and bottom. Leptons include the electron, muon, tau, and their corresponding neutrinos. Each particle has a corresponding antiparticle with opposite charge.

Bosons[edit | edit source]

Bosons are particles that follow Bose-Einstein statistics and are responsible for the forces of nature. The four fundamental forces are mediated by four gauge bosons: the photon for electromagnetic force, the W and Z bosons for weak force, the gluons for strong force, and the graviton (hypothetical) for gravity. The Higgs boson, discovered in 2012, is responsible for giving mass to particles.

The Standard Model[edit | edit source]

The Standard Model of particle physics is a well-established theory that describes the electromagnetic, weak, and strong nuclear interactions, integrating all known elementary particles. It has been confirmed by experiments, including those at the Large Hadron Collider (LHC). However, it does not incorporate the gravitational force or account for the dark matter and dark energy that appear to constitute a significant part of the universe's mass-energy content.

Beyond the Standard Model[edit | edit source]

Several theories propose extensions to the Standard Model to address its limitations. These include supersymmetry, string theory, and quantum gravity. These theories suggest the existence of additional particles and forces and aim to unify all fundamental forces of nature.

Experimental Research[edit | edit source]

Research in particle physics is conducted using particle accelerators and detectors. The LHC is the world's largest and most powerful particle accelerator, where particles are collided at high energies to observe the resulting interactions and particles, including the Higgs boson.

Conclusion[edit | edit source]

Elementary particles are the foundation of all matter and forces in the universe. Despite the success of the Standard Model, ongoing research aims to uncover a more complete theory of the fundamental constituents of the universe and their interactions.

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Contributors: Prab R. Tumpati, MD