Dense plasma focus: Difference between revisions
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Revision as of 13:47, 10 February 2025
Dense Plasma Focus (DPF) is a type of plasma device that generates, via electromagnetic acceleration and compression, a short-lived, high-density, high-temperature plasma. The DPF utilizes a simple, economical design that can operate over a wide range of temperatures and densities.
History
The Dense Plasma Focus was first developed in the early 1960s by Neville V. Smith and J.W. Mather. The initial concept was based on the pinch effect, a phenomenon in plasma physics where a current-carrying plasma creates a magnetic field that compresses it.
Operation
The operation of a Dense Plasma Focus device begins with the ionization of a gas within a hollow electrode. A high voltage pulse is then applied, which accelerates the plasma along the axis of the device. The plasma is then compressed and heated to high temperatures, creating a dense plasma focus.
Applications
Dense Plasma Focus devices have a wide range of applications. They are used in nuclear fusion research, as they can achieve the high temperatures and densities required for fusion reactions. They are also used in the study of plasma physics, as they can generate a wide range of plasma conditions. In addition, they are used in the production of neutrons and x-rays for various industrial and scientific applications.
See Also
References
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