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WSPC - ED TELL LECT - EDWARD TELLER LECTURES: LASERS AND INERTIAL FUSION ENERGY Organization: WSPC
Date: 2005-06-28
Description: How to achieve unlimited, safe, clean and low-cost energy by laser- or beam-driven inertial nuclear fusion has preoccupied all winners of the Edward Teller Medal since its inception in 1991.
WSPC - PUSH FRNT ATM PHYS PROC XXI INTERN CONF ATM PHYS - PUSHING THE FRONTIERS OF ATOMIC PHYSICS PROCEEDINGS OF THE XXI INTERNATIONAL CONFERENCE ON ATOMIC PHYSICS Organization: WSPC
Date: 2009-03-12
Description: This conference, held at the University of Connecticut in July 2008, is part of a series of conferences, which began in 1968 and had its historical origins in the molecular beam conferences of the I. I. Rabi group. It provides an archival and up-to-date summary of current research on atoms and simple molecules as well as their interactions with each other and with external fields, including degenerate Bose and Fermi quantum gases and interactions involving ultrafast lasers, strong field control of X-ray processes, and nanoscale and mesoscopic quantum systems.
ISA - ISA 60079-28 - EXPLOSIVE ATMOSPHERES – PART 28: PROTECTION OF EQUIPMENT AND TRANSMISSION SYSTEMS USING OPTICAL RADIATION - EDITION 1.1; 12.21.02 Organization: ISA
Date: 2012-12-05
Description: It covers the following ignition mechanisms: • optical radiation is absorbed by surfaces or par ticles, causing them to heat up and, under certain circumstances, this may allow them to attain a temperature which will ignite a surrounding explosive atmosphere; • direct laser induced breakdown of the gas at the focus of a strong beam, producing plasma and a shock wave both eventually acting as the ignition source.
UL - 60079-28 BULLETIN - UL STANDARD FOR SAFETY EXPLOSIVE ATMOSPHERES – PART 28: PROTECTION OF EQUIPMENT AND TRANSMISSION SYSTEMS USING OPTICAL RADIATION - COMMENTS DUE: FEBRUARY 6, 2017 Organization: UL
Date: 2016-12-23
Description: • In rare special cases, direct laser induced breakdown of the gas at the focus of a strong beam, producing plasma and a shock wave both eventually acting as ignition source.
CEI - EN 60079-28 - EXPLOSIVE ATMOSPHERES PART 28: PROTECTION OF EQUIPMENT AND TRANSMISSION SYSTEMS USING OPTICAL RADIATION Organization: CEI
Date: 2016-02-01
Description: • In rare special cases, direct laser induced breakdown of the gas at the focus of a strong beam, producing plasma and a shock wave both eventually acting as ignition source.
IEC - IEC 60079-28 - EXPLOSIVE ATMOSPHERES – PART 28: PROTECTION OF EQUIPMENT AND TRANSMISSION SYSTEMS USING OPTICAL RADIATION - EDITION 2.0 Organization: IEC
Date: 2015-05-01
Description: In rare special cases, direct laser induced breakdown of the gas at the focus of a strong beam, producing plasma and a shock wave both eventually acting as ignition source.
CENELEC - EN 60079-28 - EXPLOSIVE ATMOSPHERES - PART 28: PROTECTION OF EQUIPMENT AND TRANSMISSION SYSTEMS USING OPTICAL RADIATION Organization: CENELEC
Date: 2015-09-01
Description: In rare special cases, direct laser induced breakdown of the gas at the focus of a strong beam, producing plasma and a shock wave both eventually acting as ignition source.
IEC - IEC 60079-28 REDLINE - EXPLOSIVE ATMOSPHERES – PART 28: PROTECTION OF EQUIPMENT AND TRANSMISSION SYSTEMS USING OPTICAL RADIATION - EDITION 2.0 Organization: IEC
Date: 2015-05-01
Description: In rare special cases, direct laser induced breakdown of the gas at the focus of a strong beam, producing plasma and a shock wave both eventually acting as ignition source.
AA WATP23 - WELDING ALUMINUM: THEORY AND PRACTICE - FOURTH EDITION Organization: AA
Date: 2002-01-01
Description: It can also be extruded into a variety of products such as structural shapes (angles, channels, T's, Z's, H-beams, I-beams) and into pipe and tubing. The metal can be forged for products requiring the unique properties afforded by forgings.

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