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Gluons are elementary particles that mediate the strong force, which is one of the four fundamental forces of nature. The strong force binds quarks together to form protons, neutrons, and other particles. Manipulating gluons directly is not currently possible because they are confined within particles and cannot exist in isolation.

However, we can indirectly manipulate the strong force and the behavior of gluons by using high-energy particle accelerators and colliders. These experimental facilities allow scientists to study the properties of subatomic particles and their interactions, including those involving gluons.

By colliding particles at high energies, researchers can create conditions similar to those that occurred in the early universe shortly after the Big Bang. These collisions produce energetic jets of particles, including gluons, which can be detected and studied. The data collected from these experiments help us understand the properties and behavior of gluons.

Additionally, theoretical physicists study the strong force and gluon interactions using mathematical models, such as quantum chromodynamics (QCD). These models describe the behavior of quarks, gluons, and their interactions, allowing scientists to make predictions and gain insights into the strong force.

While direct manipulation of gluons is not feasible with current technology, ongoing research and advancements in particle physics continue to deepen our understanding of these fundamental particles and their role in the universe.

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