The Hydrogen Dissociation Laser.

Abstract

The H2 dissociation laser buffered with argon using electron beam excitation is considered. The argon buffer greatly increases the light output from the upper laser level, compared with pure hydrogen. It does this by absorbing much more of the electron beam energy, and by transferring it more efficiently to the upper laser level. Upper laser level densities of 3 x 10 to the 13th power per cc are experimentally obtained. This should be sufficient for practical gain if auxiliary loss processes such as photoionization absorption do not cancel the gain. This problem has not yet been determined. If these adsorption processes are within estimated bounds, an energy density of approximately 5 joules per liter, over a pulse time of about 10 nsec, at an efficiency of about 10 percent for tunable radiation in the 0.4- to 0.6- micrometer wavelength range is predicted. (Author)

Document Details

Document Type
Technical Report
Publication Date
Apr 05, 1974
Accession Number
AD0780622

Entities

People

  • Allen G. Rubin
  • Arthur Cohn
  • Arthur L. Besse

Organizations

  • Air Force Cambridge Research Laboratories

Tags

Communities of Interest

  • Materials and Manufacturing Processes

DTIC Thesaurus Topics

  • Absorption
  • Adsorption
  • Charged Particles
  • Corpuscular Radiation
  • Dissociation
  • Efficiency
  • Electromagnetic Radiation
  • Electron Beams
  • Electrons
  • Elementary Fermions
  • Elementary Particles
  • Excitation
  • Fermions
  • Hydrogen
  • Ionizing Radiation
  • Leptons
  • Radiation

Fields of Study

  • Physics

Readers

  • Mathematics or Statistics
  • Pulsed Power and Plasma Physics.

Technology Areas

  • Directed Energy
  • Directed Energy - Lasers
  • Microelectronics