https://doi.org/10.1140/epjd/e2005-00241-3
Comparison of theoretical and experimental red and near infrared absorption spectra in overheated potassium vapour
1
Institute of Physics, Bijenicka 46, 10000 Zagreb, Croatia
2
ISAS – Institute for Analytical Sciences, Bunsen-Kirchhoff-Strasse 11, 44139 Dortmund, Germany
Corresponding author: a vadla@ifs.hr
Received:
5
April
2005
Revised:
20
June
2005
Published online:
30
August
2005
The K2 molecular spectra have been theoretically and experimentally
investigated in the wavelength range between 550 nm and 1100 nm and at the
temperatures between 650 K and 1100 K. Semiclassical theoretical simulations
were performed using the most recent data for the potential energy curves
for the K(4S)+K(4S) and K(4S)+K(4P) systems and the relevant dipole
transition moments. The measurements of the corresponding spectra were
performed by a spatially resolved absorption method in an inhomogeneous
overheated potassium vapour generated in a heat pipe. Both theoretical and
experimental investigations confirmed that the reduced absorption
coefficients of the potassium diffuse triplet bands at 575 nm, 721.5 nm and
1095 nm are practically independent of temperature in a wide temperature
range. The obtained data for the reduced absorption coefficients of these
bands can be used for a simple and accurate determination of potassium atom
number densities in the range from 
cm-3 to 
cm-3.
PACS: 31.15.Gy – Semiclassical methods / 33.20.Ea – Infrared spectra / 33.20.Kf – Visible spectra / 33.70.Fd – Absolute and relative line and band intensities
© EDP Sciences, Società Italiana di Fisica, Springer-Verlag, 2005
