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The FPF is uniquely suited to exploit physics opportunities in the
far-forward region, because it will house a diverse set of
experiments, each optimized for particular physics goals. The
envisioned experiments and their physics targets are: (1) FASER2, a
magnetic spectrometer and tracker, will search for light and
weakly-interacting states, including long-lived particles, new force
carriers, axion-like particles, light neutralinos, and dark sector
particles. (2) FASERnu2 and (3) Advanced SND, proposed emulsion and
electronic detectors, respectively, will detect roughly one million
neutrinos and anti-neutrinos at TeV energies, including one thousand
tau neutrinos, the least well-understood of all known particles. (4)
FLArE, a proposed 10-tonne-scale noble liquid detector, will detect
neutrinos and also search for light dark matter. And (5) FORMOSA, a detector composed of scintillating bars, will provide world-leading sensitivity to millicharged particles and other very weakly-interacting particles across a large range of masses.
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