Add to ORKGThis research was supported by the National Science Foundation.Author Institution: Chemistry Department, University of WashingtonThe transition energy, line width and fine structure of matrix isolated atoms undergo a pronounced reversible temperature dependence change: For copper, silver and gold in rare gases between $20^\circ K$ and 0.4 of the solvent melting point, all lines broaden with increasing temperature. The temperature coefficients are not linear, depend on the solvent, and differ for individual sublevels of atomic transitions. Similarly, the coefficients for transition energy shifts vary in a complex way. An attempt is made to correlate the observed effects, and to develop a model which qualitatively explains the observed facts...
$57^Fe$ Mössbauer studies of three inorganic glasses through their glass transition temperatures, $T...
Smith G. The temperature variations of proposed single ion, exchange-coupled pair and metal-metal ch...
Author Institution: Division of Pure Chemistry, National Research Council of CanadaMolecules possess...
The matrix isolation spectra of all of the 40 presently known atomic metal species show strong matri...
A pseudopotential model is suggested for the calculation of the matrix perturbation on the spectra o...
We investigated here temperature dependence of Stark widths for neutral atom spectral lines in order...
$^{*}$Supported by NIH, NSF, University of Illinois Research Board, and an Alfred p. Sloan Research ...
A theoretical study is made of the matrix effects on the absorption spectra of the noble metal atoms...
Angle-resolved valence-band x-ray photoemission spectra were taken along the [111] and [100] directi...
A theory to explain the temperature dependence of the work function of the monovalent metals has bee...
Infrared absorption spectra of HC1 and HBr, suspended in solid argon, krypton and nitrogen, were rec...
International audienceThe present work highlights the links between melting properties and structura...
Fluid metals are fundamentally distinct from normal insulating fluids such as argon in that their el...
We present an experimental and theoretical investigation of the spectroscopy of dilute alkali atoms ...
International audienceLike non-metallic glasses, many bulk metallic glasses manifest a glass-transit...
$57^Fe$ Mössbauer studies of three inorganic glasses through their glass transition temperatures, $T...
Smith G. The temperature variations of proposed single ion, exchange-coupled pair and metal-metal ch...
Author Institution: Division of Pure Chemistry, National Research Council of CanadaMolecules possess...
The matrix isolation spectra of all of the 40 presently known atomic metal species show strong matri...
A pseudopotential model is suggested for the calculation of the matrix perturbation on the spectra o...
We investigated here temperature dependence of Stark widths for neutral atom spectral lines in order...
$^{*}$Supported by NIH, NSF, University of Illinois Research Board, and an Alfred p. Sloan Research ...
A theoretical study is made of the matrix effects on the absorption spectra of the noble metal atoms...
Angle-resolved valence-band x-ray photoemission spectra were taken along the [111] and [100] directi...
A theory to explain the temperature dependence of the work function of the monovalent metals has bee...
Infrared absorption spectra of HC1 and HBr, suspended in solid argon, krypton and nitrogen, were rec...
International audienceThe present work highlights the links between melting properties and structura...
Fluid metals are fundamentally distinct from normal insulating fluids such as argon in that their el...
We present an experimental and theoretical investigation of the spectroscopy of dilute alkali atoms ...
International audienceLike non-metallic glasses, many bulk metallic glasses manifest a glass-transit...
$57^Fe$ Mössbauer studies of three inorganic glasses through their glass transition temperatures, $T...
Smith G. The temperature variations of proposed single ion, exchange-coupled pair and metal-metal ch...
Author Institution: Division of Pure Chemistry, National Research Council of CanadaMolecules possess...