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The is an essential upgrade of Fermilab’s particle accelerator complex. It is the first U.S. Particle accelerator project with significant contributions from international partners. Research institutions in France, India, Italy and the UK will build major components of the new particle accelerator. PIP-II’s high-intensity proton beams will provide a flexible platform for the long-term future of the Fermilab accelerator complex and the U.S. Accelerator-based particle physics program.

It positions Fermilab to be the world leader in accelerator-based neutrino research. It enables the scientific program for the international, Fermilab-hosted.

For examples of things measuring between one and ten femtometres, see. Femtometre Unit of Symbol fm Conversions 1 fm in. 000000000♠1 ×10 −00♠6.1877 ×00000♠1.8897 ×10 −5 / units 3.9370 ×10 −14 The femtometre (American spelling femtometer, symbol fm derived from the Danish and Norwegian word femten, 'fifteen'+: μέτρον, metrοn, 'unit of measurement') is an unit of equal to 10 −15, which means a quadrillionth of one. This distance can also be called a fermi and was so named in honour of physicist, as it is a typical length-scale of. Definition and equivalents [ ] 1000 = 1 femtometre = 1 fermi = 0.001 = 000000000♠1 ×10 −00♠1 000 000 femtometres = 10 = 1. For example, the charge of a is approximately 0.84–0.87 femtometres while the radius of a is approximately 8.45 femtometres.

1 = 100 fm 2 History [ ] The femtometre was adopted by the 11th, and added to SI in 1. The fermi is named after the (1901–1954), one of the founders of nuclear physics. The term was coined by in a 1956 paper published in entitled 'Electron Scattering and Nuclear Structure'. The term is widely used by nuclear and physicists. [ ] When Hofstadter was awarded the 1961 Nobel Prize in Physics, it subsequently appears in the text of his 1961 Nobel Lecture, 'The electron-scattering method and its application to the structure of nuclei and nucleons' (December 11, 1961). References [ ].