Absolute determination of local ground-state densities of atomic hydrogen in nonlocal-thermodynamic-equilibrium environments by two-photon polarization spectroscopy

“…Two-photon LIPS has been demonstrated for both atomic and molecular species such as nitrogen (N 2 ) [11], ammonia (NH 3 ) [12], carbon monoxide (CO) [12], and monatomic hydrogen (H) [13][14][15]. However, in these studies the pump and probe beam frequencies were the same.…”

“…The pressure dependence of LIPS signals has also been studied [17]. A theoretical treatment of LIPS in cases where the pump and probe have been tuned to the 1S-2S twophoton resonance of the H atom has been reported by Dux et al [13], although the hyperfine structure of the transition was not included in this treatment.…”

Two-color, two-photon laser-induced polarization spectroscopy (LIPS) measurements of atomic hydrogen in near-adiabatic, atmospheric pressure hydrogen/air flames

“…Two-photon LIPS has been demonstrated for both atomic and molecular species such as nitrogen (N 2 ) [11], ammonia (NH 3 ) [12], carbon monoxide (CO) [12], and monatomic hydrogen (H) [13][14][15]. However, in these studies the pump and probe beam frequencies were the same.…”

“…The pressure dependence of LIPS signals has also been studied [17]. A theoretical treatment of LIPS in cases where the pump and probe have been tuned to the 1S-2S twophoton resonance of the H atom has been reported by Dux et al [13], although the hyperfine structure of the transition was not included in this treatment.…”

Two-color, two-photon laser-induced polarization spectroscopy (LIPS) measurements of atomic hydrogen in near-adiabatic, atmospheric pressure hydrogen/air flames

“…It has been used e.g. to determine absolute atomic hydrogen density in quite different environments with an uncertainty as low as 10% [5][6][7]. This precision can be by achieved by relative measurements with respect to a standard of atomic hydrogen density.…”

“…This precision can be by achieved by relative measurements with respect to a standard of atomic hydrogen density. The standard was established [7] at the Physikalisch-Technische Bundesanstalt (PTB), and it is based on the plasma generated in a stationary wallstabilized cascade arc operated with pure hydrogen, which was demonstrated to generate an ideal gas of atomic hydrogen for the experimental conditions. However, such a hydrogen density standard is quite complicated to be used in other laboratories, because it needs sophisticated technical equipment and requires some special operational experience.…”

Determination of Two-Photon Absorption Cross-Section of Noble Gases for Calibration of Laser Spectroscopic Techniques

“…Two-photon polarization spectroscopy 4 allows for direct measurement of the two-photon absorption and was used for measuring Stark broadening 1S-2S hydrogen, 5 for the determination of atomic hydrogen densities in a stationary wall stabilized cascaded arc plasma, 6 in a hollow cathode discharge (HCD) 7 and in atmospheric pressure flames, 8 and for the determination of local electric field (E-field) strength 9 as well. Two-photon induced Lyman-a fluorescence was employed in feasibility study for tokamak diagnostic 10 and Balmer-a fluorescence for local E-field strength determination in an optogalvanic cell.…”

Calculation of the spatial resolution in two-photon absorption spectroscopy applied to plasma diagnosis