Journal ArticleDOI
Two-Photon absorption of atomic hydrogen from two light beams
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TLDR
In this paper, the analysis of two-photon absorption by atomic hydrogen is generalized to the case of two incident beams with arbitrary direction and polarization (including circular polarization), and the second-order matrix elements responsible for two-poton absorption are transformed into a finite sum consisting of the product of a radial part and an angular part.Abstract:
Within the framework of nonrelativistic quantum mechanics, the analysis of the two-photon absorption by atomic hydrogen is generalized to the case of two incident beams with arbitrary direction and polarization (including circular polarization). In the dipole approximation, the second-order matrix elements responsible for two-photon absorption are transformed into a finite sum consisting of the product of a radial part and an angular part. Exact calculation of the angular part predicts that, for the s–s transition only, transparency is obtained regardless of the frequencies of the two beams with perpendicular polarizations. In addition, circularly polarized light is found to be more efficient (up to a factor of 1.5) for the s–d two-photon transition. The radial parts of the matrix elements are accurately evaluated by using the Coulomb Green’s function technique and an implicit technique of Dalgarno and Lewis. Their calculation indicates that “zeros” exist in the two-photon absorption spectrum, thereby predicting that absorption is not possible at certain frequencies. It should be noted that in the calculated spectrum, near or at resonance points, the linewidths of the intermediate levels must be included in order to obtain accurate results.read more
Citations
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Absolute calibration of atomic density measurements by laser-induced fluorescence spectroscopy with two-photon excitation
TL;DR: In this article, the two-photon resonances of atomic hydrogen (λ = 2×205.1 nm), atomic nitrogen, krypton, and xenon were investigated.
Journal ArticleDOI
Validation of actinometry for estimating relative hydrogen atom densities and electron energy evolution in plasma assisted diamond deposition reactors
TL;DR: The validity of the actinometry method applied to H-atom mole fraction measurements has been analyzed in this paper, where the authors showed that the H atoms excited in the level of quantum number n=3 (level used for OES experiments) are produced directly from the ground electronic state during collisions with electrons.
Journal ArticleDOI
Femtosecond, two-photon-absorption, laser-induced-fluorescence (fs-TALIF) imaging of atomic hydrogen and oxygen in non-equilibrium plasmas
Jacob B. Schmidt,Sukesh Roy,Waruna D. Kulatilaka,Ivan Shkurenkov,Igor Adamovich,Walter R. Lempert,James R. Gord +6 more
TL;DR: In this article, femtosecond, two-photon absorbing laser-induced fluorescence (fs-TALIF) is employed to measure space and time-resolved distributions of atomic hydrogen and oxygen in moderate-pressure, non-equilibrium, nanosecond-duration pulsed-discharge plasmas.
Journal ArticleDOI
Two-photon excitation dynamics in bound two-body Coulomb systems including ac Stark shift and ionization
Martin Haas,Ulrich D. Jentschura,Christoph H. Keitel,Nikolai N. Kolachevsky,Maximilian Georg Herrmann,Peter Fendel,Marc Fischer,Th. Udem,Ronald Holzwarth,Theodor W. Hänsch,Marlan O. Scully,Girish S. Agarwal +11 more
TL;DR: In this paper, an analytically solvable model scenario for the population dynamics in the density matrix formalism was investigated, and the corresponding equations of motion for individual experimental use were generalized for individual use.
Journal ArticleDOI
Angular momentum state mixing and quenching of n=3 atomic hydrogen fluorescence
TL;DR: In this article, the n=3 excited state was probed using two-photon allowed laser induced fluorescence and a nonlinear least squares regression fits were made between the data and a model calculation using rate equations which describe the population changes for the different angular momentum levels of the n = 3 state.
References
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Journal ArticleDOI
The exact calculation of long-range forces between atoms by perturbation theory
Alexander Dalgarno,John T. Lewis +1 more
TL;DR: In this article, a general sum rule is described which has many variants; it permits, for example, the exact calculation of the long-range forces between a proton and a hydrogen atom using conventional perturbation theory.
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Journal ArticleDOI
Doppler-free two-photon spectroscopy of hydrogen 1S-2S
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Journal ArticleDOI
Calculations in schrödinger perturbation theory
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Journal ArticleDOI
Resonant Enhancement of Two-Photon Absorption in Sodium Vapor
J. E. Bjorkholm,P. F. Liao +1 more