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MiamiOH OARS on 13 Sep 13Particle physics plays an essential role in the broader enterprise of the physical sciences. It inspires U.S. students, attracts talent from around the world, and drives critical intellectual and technological advances in other fields. It is entering an era of unprecedented potential as a result of new discoveries about matter and energy in the Universe. Particle Physics seeks to explore the fundamental nature of matter, energy, space, and time. It asks such questions as: What are the origins of mass? Can the basic forces of nature be unified? How did the universe begin? How will it evolve in the future? What are dark matter and dark energy? Are there extra dimensions of space-time? Formerly separate questions in cosmology (the universe on the largest scales) and quantum phenomena (the universe on the smallest scales) become connected through our understanding that the early universe can be explored through the techniques of particle physics. At the NSF, research related to particle physics is supported by four programs within the Division of Physics: (1) the Theoretical Elementary Particle Physics Program; (2) the Theoretical Particle Astrophysics/Cosmology Program; (3) the Experimental Elementary Particle Physics (EPP) Program, which supports particle physics at accelerators; and (4) the Experimental Particle Astrophysics (PA) Program, which supports non-accelerator experiments.The Particle Astrophysics program supports university research in many areas of particle astrophysics, including the study of ultra-high energy particles reaching Earth from beyond our atmosphere, experiments or research and development projects for underground facilities and non-accelerator-based experiments studying the properties of neutrinos.