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5 Findings and Conclusions
Pages 105-110

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From page 105...
... was identified as a priority in the 2002 long-range plan of the DOE/NSF Nuclear Science Advisory Committee (NSAC) , in which it was further ranked as the "highest priority for new construction" and the second overall (after support of the operating facilities, the Relativistic Heavy Ion Collider [RHIC]
From page 106...
... Indeed, a new long-range planning process for nuclear science will begin in 2007, and the community will have the opportunity to assert its priorities. SCIENTIFIC CONTEXT Nuclear structure physics as pursued at a FRIB aims to describe nuclei as a collection of neutrons and protons.
From page 107...
... FRIB concept represents a unique opportunity to explore the nature of nuclei under conditions that previously only existed in supernovae and to challenge our knowledge of nuclear structure by exploring new forms of nuclear matter. While a facility capable of intense beams of a wide variety of radioactive nuclei will clearly impact many areas of science and technology, the committee identified several key science drivers.
From page 108...
... As part of the overall strategy for nuclear science in the United States, the committee believes that the United States should plan for and develop the tech nologies for a national facility for rare-isotope science of the type embodied in the FRIB concept. The overall scientific priority for this facility will be evaluated in a forthcoming NSAC study developing a long-range plan for the field.
From page 109...
... 1DOE/NSF Nuclear Science Advisory Committee, Guidance for Implementation of the 2002 Long Range Plan, Washington, D.C.: U.S. Department of Energy, 2005.
From page 110...
... Additionally, the committee heard testimony that global "de mand" for radioactive beams exceeds projected "supply." The committee concludes that the science addressed by a rare-isotope facility, most likely based on a heavy-ion driver using a linear accelerator, should be a high priority for the United States. The facility for rare-isotope beams envisaged for the United States would provide capabilities, unmatched elsewhere, that will directly address the key science of exotic nuclei.


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