Fusion Energy: Hearing Before the Subcommittee on Energy of the Committee on Science, Space, and Technology, U.S. House of Representatives, One Hundred Third Congress, First Session, May 5, 1993, 4. sējums
United States, United States. Congress. House. Committee on Science, Space, and Technology. Subcommittee on Energy
U.S. Government Printing Office, 1993 - 617 lappuses
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activity addition alternate amount approach atoms believe cathode cell charge Cold Fusion Committee concepts conference confinement construction continued cost demonstration density Department deuterium device effect effort electric electrolysis electron emission engineering excess heat experimental experiments field fission fuel funding Fusion Energy fusion power fusion reactor heavy helium hydrogen important increase industry inertial Institute involved issues Italy ITER Japan Laboratory lead magnetic major materials measured metal million nature neutron nuclear observed operation palladium particles physics plant plasma positive possible potential present problems production proposed questions ratio reaction reactor reported samples scientific scientists significant solution studies surface temperature TFTR Thank tokamak tritium understanding United University utilities
55. lappuse - Mr. Chairman and Members of the Subcommittee: I am very pleased to have the opportunity to discuss with you the people of your Array and the Army's personnel requirements for fiscal year <FY) 1982.
68. lappuse - Chairman Bevill, Members of the Committee thank you for the opportunity to testify before this Committee on behalf of the Princeton Plasma Physics Laboratory and in support of a strong national effort to develop fusion energy. I would...
15. lappuse - US experimental tokamaks are the Tokamak Fusion Test Reactor (TFTR) at the Princeton Plasma Physics Laboratory, the Doublet III-D (DIII-D) at General Atomics and Alcator C-Hod at the Massachusetts Institute of Technology (MIT).
340. lappuse - ... China Lake, California. He started there as a research physicist in the Semiconductor Physics Branch, then as a supervisory research physicist he headed the Electron Structure of Solids Branch and the Semiconductor and Surface Science Branch, both in the Physics Division, Research Department Dr Rehn received his BA in physics at the University of California, Berkeley in 1953 and his Ph.D. in physics from the University of Pittsburgh in 1962. After completing his thesis research in nuclear quadrupole...
44. lappuse - detailed, complete, and fully integrated engineering design of ITER and all technical data necessary for future decisions on the construction of ITER." On completion, the design and technical data will be available for each of the parties to use either as part of an international collaborative program or in its own domestic program Other objectives of the EDA phase are to conduct validating R&D supporting the engineering design of ITER. to establish siting requirements, to perform environmental and...
244. lappuse - Experiment (TPX), proposed as a national facility to develop the scientific basis for a compact and continuously operating tokamak fusion reactor.
231. lappuse - Fusion Energy Advisory Committee, Advice and Recommendations to the US Department of Energy in Response to the Charge Letter of September...
156. lappuse - Report of the Senior Committee on Environmental, Safety, and Economic Aspects of Magnetic Fusion Energy (ESECOM), Lawrence Livermore National Laboratory, UCRL-53766, [Summary: UCRL-53766-Summary (1987)] [3.
340. lappuse - Rehn studied magnetoacoustics attenuation in metals at the University of Chicago. Upon moving to China Lake, he undertook research in electroreflectance of widegap semiconductors and insulators. Beginning in 1973, he participated in the establishment of the Stanford Synchrotron Radiation Laboratory and continued with the application of synchrotron radiation in research in semiconductors and semiconductor surfaces. In 1976 he initiated a research program in liquid-phase epitaxy, followed in 1984 by...