Apr 1, 1999 · Semantic Scholar profile for M. J. Weber, with 426 highly influential citations and 101 scientific research papers.

Mj WEBER | Cited by 99 | of Lawrence Berkeley National Laboratory, CA (LBL) | Read 2 publications | Contact Mj WEBER

Spontaneous Emission and Laser Oscillation in Microcavities Marvin J. Weber, Editor

M. J. Weber's 109 research works with 4,550 citations and 7,872 reads, including: Synthesis and scintillation properties of some dense X-ray phosphors

Jul 1, 1973 · Optical absorption and emission intensities are investigated for trivalent rare earths in YAl. Ions examined included Pr, Nd, Eu, Tb, Ho, Er, Tm, and Yb. Oscillation strengths of transitions between manifolds were measured at room temperature and compared with calculated electric and magnetic dipole oscillator strengths.

Spontaneous-emission probabilities for electric- and magnetic-dipole transitions from excited electronic states of Pr 3 +, Nd 3 +, Eu 3 +, Er 3 +, and Tm 3 + impurities in Y 2 O 3 are calculated using eigenstates in intermediate coupling and experimental intensity parameters.

Aug 2, 1990 · M.J. Weber / Science and technology of laser glass 215 To describe the local field at a rare earth site in a solid, the crystal field potential V is expanded in a power series of terms involving tensor operator components C (k) that transform as spherical ----q harmonics.

Nov 1, 1971 · Fluorescence kinetics and energy transfer were studied as a function of temperature in crystals codoped with and . Back transfer from to becomes important for relaxation at temperatures . The rate and efficiency of energy transfer in YAl are determined and compared with results for other materials.

In it, scientist, author, and editor Dr. Marvin J. Weber provides extensive data tabulations and references for the most important optical materials, including crystals, glasses, polymers, metals, liquids, and gases.

In 1973, Dr. Weber joined the Laser Program at the Lawrence Livermore National Laboratory. As Head of Basic Materials Research and Assistant Program Leader, he was responsible for the physics and characterization of optical materials for high-power laser systems used in inertial confinement fusion research.