Description of Fermilab FacilitiesFermilabFL_c5b537cc-395c-11e4-970c-f3c97966db69U.S. Department of Energy_5c8cc946-3898-11e4-980b-2ef37966db69_5c8cca90-3898-11e4-980b-2ef37966db69Accelerator ComplexProduce high-energy neutrino beams and provides proton and neutron beams._c5b53948-395c-11e4-970c-f3c97966db691University ResearchersSeveral test beams and test areas are available to university and industrial researchers ... Industrial ResearchersFermilab's accelerator complex consists of a total of 16km of accelerators and beamlines. It produces the world's most powerful, high-energy neutrino beam and provides proton and neutron beams for various experiments, R&D programs as well as cancer treatment. _5c8ccdba-3898-11e4-980b-2ef37966db69SRF TechnologyIncrease particle beam energy levels while minimizing the use of electrical power._c5b53a42-395c-11e4-970c-f3c97966db692 SRF cavities enable accelerators to increase particle beam energy levels while minimizing the use of electrical power by all but eliminating electrical resistance. Future experiments into the origins of the universe and nature of matter will require advanced SRF technology._5c8cd058-3898-11e4-980b-2ef37966db69Superconducting Accelerator MagnetsDesign, construct, test and analyze superconducting accelerator magnets and related components._c5b53aec-395c-11e4-970c-f3c97966db693U.S. IndustryOver the decades, Fermilab has been responsible for the design, construction, test and analysis of hundreds of conventional and superconducting accelerator magnets and related components. Having an excellent magnet test facility and a strong superconductor R&D program in support of the magnet program, we can perform a wide range of magnetic measurements, including measurements at the superfluid helium temperature (1.9K). With growing interest in medical and industrial applications of advanced magnet systems, Fermilab's unique capabilities in magnet design, fabrication, test, and analysis are a valuable asset for U.S. industry._5c8cd242-3898-11e4-980b-2ef37966db69Particle Detection[Conduct] particle detector research and development._c5b53b78-395c-11e4-970c-f3c97966db694Silicon Detector Development (SDD) LaboratoryFermilab has an intensive program in particle detector research and development. This program revolves around a series of institutional capabilities, typically not available elsewhere. The types of facilities that contribute to detector research include: the Silicon Detector Development (SDD) Laboratory, a large ASIC Engineering group, and extensive experience in Cryogenic and Vacuum Engineering. Fermilab's unique capapabilities to create speciality scintillator material, polished fibers, imaging technologies, data acquisition devices, and other instrumentation that meet the exacting standards of the high energy physics community have resulted in a global demand for Fermilab's services. Many of the technologies that have been developed for these detectors may also have important medical and industrial applications._5c8cd620-3898-11e4-980b-2ef37966db69ComputingSupport the specialized computing needs of research and development partners._c5b53c0e-395c-11e4-970c-f3c97966db695Computing is indispensable to science at Fermilab. High-energy physics experiments generate an astounding amount of data that physicists need to acquire, store, analyze and communicate with others. Cutting-edge technology allows scientists to work quickly and efficiently to advance our understanding of the world. Fermilab is recognized for its expertise in acquiring huge amounts of data in real time, managing the data, providing high-speed parallel computing services, and for its willingness to push the technology into innovative directions. Fermilab also has a significant capability in accelerator modeling and simulation. Fermilab routinely supports the specialized computing needs of resesarch and development partners around the world._5c8cd8aa-3898-11e4-980b-2ef37966db692014-09-09https://www.data.gov/app/uploads/2014/06/DOE-Inventory.csvOwenAmburOwen.Ambur@verizon.net