Alberta | Interferometric measurements of wavelengths of 86Kr and sources of secondary standards | K. Newbound |
Zeeman effect studies in Gd i and Gd ii and other rare earth elements | E. H. Pinnington |
Radiative lifetime measurements by the foil excitation method | C. C. Lin |
British Columbia | Atomic spectra, classification of atomic energy levels | A. M. Crooker |
Molecular spectroscopy, e.g., Stark splitting in diatomic molecules, determination of dipole moments using a modified LoSurdo source | F. W. Dalby |
Plasma diagnostics, e.g., electron velocity profiles using scattering of laser light, time resolved spectroscopy, radiative lifetimes by photon counting, etc. | R. Nodwell |
Photoconductivity and Stark effect in boron doped silicon, temperature dependency of line widths for internal impurity levels | J. W. Bichard and F. Schwerdtfeger |
Dalhousie, Nova Scotia | Studies of optical properties of solids, e.g., temperature dependence of the reflectivity spectrum of Zn between room temperature and its melting point in relation to positron annililation experiments; reflectivity of Cu–Zn alloys as a function of Zn concentration, study of surface irregularities on reflectance | G. F. O. Langstroth |
Ecole Polytechnique (Montreal) | Very high resolution multichannel Fabry-Perot photoelectric spectrometry; study of rare earth resonance lamps; laser techniques for analysis of Fabry-Perot instrumental profiles | J. M. Gagné |
Laval | See paper on page 1649 | |
Manitoba | Study of magnetic hyperfine structure and isotope shifts with high resolution Fabry-Perot spectroscopy | F. M. Kelly |
McGill | Microwave optics: development and use of instrumentation and computational techniques in a detailed study of amplitude, phase and polarization of various microwave optical situations in the near field of lenses, apertures, and scattering and diffracting obstacles | T. J. F. Pavlasek |
Spectroscopy associated with high magnetic field studies, e.g., electronic spectra of antiferromagnetic phases of manganese salts Zeeman splittings in Eu 2(WO 4)3 with 3 × 105 Oersted pulsed fields, far ir vibration-libration spectra of K3Fe(CN)6, etc. | R. S. Stevenson and M. Shapiro |
New Brunswick | Molecular spectroscopy: high resolution studies of electronic spectra of free radicals produced by flash photolysis studied in emission and absorption (e.g., SiO, SiCl, PO, SiCl2) | R. D. Verma |
Application of a ring laser to underground surveying of mines; the application of diffraction of coherent light in the use of Fourier transform methods for NMR spectroscopy | R. Kaiser |
Saskatchewan, Toronto | See paper page 1609 | |
See paper on page 1597; also | |
Spectroscopic studies of ir chemiluminescence, including observation of consequent stimulated emission, from continuous mixing of chemical reagents | J. C. Polanyi |
Waterloo (Ontario) | Automatic ellipsometry on thin anodic oxide films | J. L. Ord and B. Wills |
Comparison of indium-doped germanium and Zn doped GaAs as far ir detectors | D. emming and J. D. Leslie |
Study of optical properties of II-VI compound semi-conductors, e.g., electroluminescence, optical absorption vs crystallinity in evaporated films, frequency dependent photoeffects | P. C. Brodie and D. E. Eastman |
Electron and ion emission from solid surfaces irradiated with Q-switched ruby lasers | N. R. Isenor |
Brillouin and Raman scattering from solids and liquids | S. H. Chen |
Western Ontario | Study of CN (337 μ) and H2O (119 μ) lasers; semiconductor optics, e.g., defect states in doped CaF2; second harmonic generation; properties of electrodelessly grown metallic films | E. Brannen and M. Schlesinger |
Windsor (Ontario) | Atomic spectroscopy, e.g., measurement of alkali atom—rare gas collision cross sections, determination of quenching and collision induced change of excited states | L. Krause and associates |
York (Ontario) (Centre for research in experimental space science) | Spectra of a broad range of atomic and molecular species which play an important role in radiative processes of astrophysics, also studies of airglow, planetary atmospheres, etc., using shock tubes, lasers, photometry and other spectroscopic techniques | R. W. Nicholls and H. I. Schiff |