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FY96-98 Summary Report Mercury: Next Generation Laser for High Energy Density Physics SI-014

Description: The scope of the Mercury Laser project encompasses the research, development, and engineering required to build a new generation of diode-pumped solid-state lasers for Inertial Confinement Fusion (ICF). The Mercury Laser will be the first integrated demonstration of laser diodes, crystals, and gas cooling within a scalable laser architecture. This report is intended to summarize the progress accomplished during the first three years of the project. Due to the technological challenges associated… more
Date: May 25, 2000
Creator: Bayramian, A.; Beach, R.; Bibeau, C.; Chanteloup, J.-C.; Ebbers, C.; Emanuel, M. et al.
Partner: UNT Libraries Government Documents Department
open access

International Affairs Budget Trends, FY1980 – FY2000

Description: This report serves as a resource for the annual congressional debate on foreign policy spending, providing context and trend analysis of the past 20 years.
Date: September 29, 2000
Creator: Nowels, Larry
Partner: UNT Libraries Government Documents Department
open access

FY96-98 Summary Report Mercury: Next Generation Laser for High Energy Density Physics SI-014

Description: The scope of the Mercury Laser project encompasses the research, development, and engineering required to build a new generation of diode-pumped solid-state lasers for Inertial Confinement Fusion (ICF). The Mercury Laser will be the first integrated demonstration of laser diodes, crystals, and gas cooling within a scalable laser architecture. This report is intended to summarize the progress accomplished during the first three years of the project. Due to the technological challenges associated… more
Date: May 23, 2000
Creator: Bayramian, A.; Beach, R.; Bibeau, C.; Chanteloup, J.; Ebbers, C.; Emanuel, M. et al.
Partner: UNT Libraries Government Documents Department
open access

High performance zero-bleed CLSM/grout mixes for high-level waste tank closures strategic research and development - FY98

Description: The overall objective of this program, SRD-98-08, is to design and test suitable materials, which can be used to close high-level waste tanks at the Savannah River Site. Fill materials can be designed to perform several functions. They can be designed to chemically stabilize and/or physically encapsulate incidental waste so that the potential for transport of contaminants into the environment is reduced. Also they are needed to physically stabilize the void volume in the tanks to prevent/minimi… more
Date: February 17, 2000
Creator: Langton, C.A.
Partner: UNT Libraries Government Documents Department
open access

Task III: UCSD/DIII-D/Textor FY-97-98 Accomplishments

Description: OAK (B204) Task III: UCSD/DIII-D/Textor FY-97-98 Accomplishments. A comprehensive report on the physics of pump limiters and particularly, the characterization of ALT-II, was published in Nuclear Fusion, bringing the project to a closure. The performance of the toroidal pump limiter was characterized under full auxiliary heating of 7 MW of NBI and ICRH and full pumping, as stated in the project milestones. Relevant highlights are: (1) Pumping with ALT-II allows for density control. (2) The achi… more
Date: September 5, 2000
Creator: Boedo, J.A.
Partner: UNT Libraries Government Documents Department
open access

LDRD final report backside localization of open and shorted IC interconnections LDRD Project (FY98 and FY 99)

Description: Two new failure analysis techniques have been developed for backside and front side localization of open and shorted interconnections on ICs. These scanning optical microscopy techniques take advantage of the interactions between IC defects and localized heating using a focused infrared laser ({lambda} = 1,340 nm). Images are produced by monitoring the voltage changes across a constant current supply used to power the IC as the laser beam is scanned across the sample. The methods utilize the Se… more
Date: January 1, 2000
Creator: Cole, E. I., Jr.; Tangyunyong, P.; Benson, D. A. & Barton, D. L.
Partner: UNT Libraries Government Documents Department
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