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Hydrogen fluoride laser

From Wikipedia, the free encyclopedia

The hydrogen fluoride laser is an infrared chemical laser. It is capable of delivering continuous output power in the megawatt range.[1]

Hydrogen fluoride lasers operate at the wavelength of 2.7-2.9 µm. This wavelength is absorbed by the atmosphere, effectively attenuating the beam and reducing its reach, unless used in a vacuum environment. However, when deuterium is used instead of hydrogen, the deuterium fluoride lases at the wavelength of about 3.8 µm. This makes the deuterium fluoride laser usable for terrestrial operations.[2]

Deuterium fluoride laser

The deuterium fluoride laser constructionally resembles a rocket engine. In the combustion chamber, ethylene is burned in nitrogen trifluoride. This reaction produces free excited fluorine radicals. Just after the nozzle, the mixture of helium and hydrogen or deuterium gas is injected to the exhaust stream; the hydrogen or deuterium reacts with the fluorine radicals, producing excited molecules of deuterium fluoride or hydrogen fluoride. The excited molecules then undergo stimulated emission in the optical resonator region of the laser.[3]

Deuterium fluoride lasers have found military applications: the MIRACL laser, the Pulsed energy projectile anti-personnel weapon, and the Tactical High Energy Laser are of the deuterium fluoride type.[4]

Fusion

An Argentine-American physicist and accused spy, Leonardo Mascheroni, has proposed the idea of using hydrogen fluoride lasers to produce nuclear fusion.[5]

References

  1. ^ "Chemical warfare agents and related chemical problems (Parts 1-2) - Digital Collections - National Library of Medicine". National Library of Medicine Digital Collections. 14111270RX1. Washington, D.C. 1946. Archived from the original on 2022-08-22. Retrieved 2022-08-22.
  2. ^ McLeary, R. (1984). "REPORT MRL-R-931" (PDF). Defence Science and Technology Organisation. 931 (1): 19. Archived (PDF) from the original on 2022-08-22. Retrieved 2022-08-22 – via Australian Government.
  3. ^ Funk, William Ted; Sontheimer, Richard Francis (1977). Cooper, A. W. (ed.). "A HYDROGEN FLUORIDE/DEUTERIUM FLUORIDE LASER AT THE NAVAL POSTGRADUATE SCHOOL" (PDF). Naval Postgraduate School. 1 (Unlimted): 96 – via United States Government.
  4. ^ Rudisill, J. E.; Garcia, B.; Bobbs, B. L.; Braunstein, M. (1980-07-01). "High-performance dichroic beam splitters for deuterium fluoride chemical lasers". Applied Optics. 19 (13): 2121–2127. Bibcode:1980ApOpt..19.2121R. doi:10.1364/AO.19.002121. ISSN 1559-128X. PMID 20221196.
  5. ^ Broad, William J. (2009-10-21). "Property of Nuclear Critic Is Seized by Federal Agents". The New York Times. ISSN 0362-4331. Archived from the original on 2022-08-22. Retrieved 2022-08-22.
This page was last edited on 23 January 2024, at 04:28
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