One‐ and two‐photon spectroscopy of the 3Eg state of NaF:Cu+: Observation and analysis of vibronic fine structure

One‐ and two‐photon laser excitation spectra of the 1A1g→3Eg transition of NaF:Cu+ are reported, these being the first direct observations of the lowest d9s excited state of Cu+ in an alkali halide host. The spin–orbit splitting of the 3Eg vibronic origin is directly measured, and can be compared with values inferred from studies of the temperature and magnetic field dependence of the emission lifetime. Clear vibrational progressions based on both spin–orbit origins are assigned to odd parity local modes of t1u symmetry. We also report high resolution emission spectra which reveal evidence of a corresponding local mode in the ground state with a fundamental frequency significantly higher than that observed in any of the d9s excited states. We model these spectroscopic data and those of the 1Eg and 1T2g states within the adiabatic approximation using three‐parameter anharmonic vibrational potentials, evaluating the energies and wave functions by a variational procedure. Good fits are obtained for most spec...

[1]  Pandey,et al.  Possibility of the simultaneous occurrence of potential minima along two crystallographic directions in an octahedral potential. , 1986, Physical review. B, Condensed matter.

[2]  R. Chien Spectral band assignments for Cu+ in alkali halides via two-color two-photon spectroscopy , 1984 .

[3]  D. McClure,et al.  Excited state dynamics of NaF:Cu+ , 1984 .

[4]  B. Moine,et al.  Kinetic investigations of NaF: Cu luminescence , 1984 .

[5]  R. Austin,et al.  Effect of a magnetic field on the luminescent lifetime of Cu + in alkali halide host crystals , 1984 .

[6]  D. McClure,et al.  One‐ and two‐photon spectra of NaF:Cu+: Jahn–Teller and vibronic coupling effects , 1983 .

[7]  Susan B. Piepho,et al.  Group theory in spectroscopy , 1983 .

[8]  D. McClure,et al.  Optical absorption and emission spectra of Cu+ : NaF single crystals , 1982 .

[9]  P. Butler Point Group Symmetry Applications: Methods and Tables , 1981 .

[10]  T. Azumi,et al.  WHAT DOES THE TERM “VIBRONIC COUPLING” MEAN? , 1977 .

[11]  B. Krohn,et al.  Radial matrix elements of rn for twofold and threefold isotropic simple harmonic oscillators , 1976 .

[12]  T. Timusk,et al.  Infrared absorption due to H− ions in sodium and potassium halides. II. Impurity induced absorption in the far-infrared region , 1970 .

[13]  S. Bell Matrix elements in harmonic oscillator representations I. General solution and application to one dimension , 1970 .

[14]  A. Gold,et al.  Polarization Dependence of Two-Photon Absorption in Solids , 1968 .