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Title: Fluorescence-pumped photolytic gas laser system for a commercial laser fusion power plant

Conference ·
OSTI ID:5223139

The first results are given for the conceptual design of a short-wavelength gas laser system suitable for use as a driver (high average power ignition source) for a commercial laser fusion power plant. A comparison of projected overall system efficiencies of photolytically excited oxygen, sulfur, selenium and iodine lasers is described, using a unique windowless laser cavity geometry which will allow scaling of single amplifier modules to 125 kJ per aperture for 1 ns pulses. On the basis of highest projected overall efficiency, a selenium laser is chosen for a conceptual power plant fusion laser system. This laser operates on the 489 nm transauroral transition of selenium, excited by photolytic dissociation of COSe by ultraviolet fluorescence radiation. Power balances and relative costs for optics, electrical power conditioning and flow conditioning of both the laser and fluorescer gas streams are discussed for a system with the following characteristics: 8 operating modules, 2 standby modules, 125 kJ per module, 1.4 pulses per second, 1.4 MW total average power. The technical issues of scaling visible and near-infrared photolytic gas laser systems to this size are discussed.

Research Organization:
California Univ., Livermore (USA). Lawrence Livermore Lab.
DOE Contract Number:
W-7405-ENG-48
OSTI ID:
5223139
Report Number(s):
UCRL-79655; CONF-771102-16; TRN: 78-006488
Resource Relation:
Conference: 20. annual AICHE meeting, New York, NY, USA, 13 Nov 1977
Country of Publication:
United States
Language:
English

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Related Subjects

70 PLASMA PHYSICS AND FUSION TECHNOLOGY
42 ENGINEERING
GAS LASERS
DESIGN
LASER FUSION REACTORS
COST
ENERGY BALANCE
FLUORESCENCE
OPTICAL SYSTEMS
PHOTOLYSIS
ULTRAVIOLET RADIATION
CHEMICAL REACTIONS
DECOMPOSITION
ELECTROMAGNETIC RADIATION
LASERS
LUMINESCENCE
PHOTOCHEMICAL REACTIONS
RADIATIONS
THERMONUCLEAR REACTORS
700208* - Fusion Power Plant Technology- Inertial Confinement Technology
420300 - Engineering- Lasers- (-1989)