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R L Kerber

Showing results (1-10 of 12) with videos related to

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Science (New York, N.Y.)|December 19, 1986
DOD's University Research InitiativeR L Kerber
Applied Optics|February 4, 2010
Simple Model of a Line Selected, Long Chain, Pulsed DF-CO(2) Chemical Transfer LaserR L Kerber
Applied Optics|February 19, 2010
Chain reaction pulsed HF laser: a simple modelR L Kerber, J S Whittier
Applied Optics|March 6, 2010
Rotational nonequilibrium mechanisms in pulsed H(2) + F(2) chain reaction lasers. 1: Effect on gross laser performance parametersR L Kerber, J J Hough
Applied Optics|January 1, 1986
Detailed characteristics of a pulsed H2 + F2 laser. 2: TheoryP E Sojka, R L Kerber
Applied Optics|July 1, 1984
Effect of vibrational and rotational relaxation mechanisms in pulsed H2 + F2 lasersR C Brown, R L Kerber
Applied Optics|February 16, 2010
Effect of cavity transients and rotational relaxation on the performance of pulsed HF chemical lasers: a theoretical investigationJ J Hough, R L Kerber
Applied Optics|February 2, 2010
Computer modeling and parametric study for a pulsed h(2) + f(2) laserR L Kerber, G Emanuel, J S Whittier
Applied Optics|March 6, 2010
Possible high energy laser at 1.27 micromR L Kerber, A K Macknight, R D Franklin
Applied Optics|January 1, 1986
Detailed characteristics of a pulsed H2 + F2 laser. 1: ExperimentP E Sojka, W K Jaul, R L Kerber
Pageof 2

Showing results (1-10 of 12) with videos related to

Sort By:
Pageof 2
Science (New York, N.Y.)|December 19, 1986
DOD's University Research InitiativeR L Kerber
Applied Optics|February 4, 2010
Simple Model of a Line Selected, Long Chain, Pulsed DF-CO(2) Chemical Transfer LaserR L Kerber
Applied Optics|February 19, 2010
Chain reaction pulsed HF laser: a simple modelR L Kerber, J S Whittier
Applied Optics|March 6, 2010
Rotational nonequilibrium mechanisms in pulsed H(2) + F(2) chain reaction lasers. 1: Effect on gross laser performance parametersR L Kerber, J J Hough
Applied Optics|January 1, 1986
Detailed characteristics of a pulsed H2 + F2 laser. 2: TheoryP E Sojka, R L Kerber
Applied Optics|July 1, 1984
Effect of vibrational and rotational relaxation mechanisms in pulsed H2 + F2 lasersR C Brown, R L Kerber
Applied Optics|February 16, 2010
Effect of cavity transients and rotational relaxation on the performance of pulsed HF chemical lasers: a theoretical investigationJ J Hough, R L Kerber
Applied Optics|February 2, 2010
Computer modeling and parametric study for a pulsed h(2) + f(2) laserR L Kerber, G Emanuel, J S Whittier
Applied Optics|March 6, 2010
Possible high energy laser at 1.27 micromR L Kerber, A K Macknight, R D Franklin
Applied Optics|January 1, 1986
Detailed characteristics of a pulsed H2 + F2 laser. 1: ExperimentP E Sojka, W K Jaul, R L Kerber
Pageof 2