P. Baltayan scite author profile

P. Baltayan

5Publications

86Citation Statements Received

0Citation Statements Given

How they've been cited

143

How they cite others

158

Affiliations

Joseph Fourier University, Laboratoire de Spectrométrie Ionique et Moléculaire, Laboratoire Interdisciplinaire de Physique

Publications

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Lifetimes and predissociation in (AlH(AlD) A1Π

Baltayan¹,

Nedelec²

1979

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Radiative lifetimes of AIH(AID) A In have been measured in a hollow cathode discharge by dye laser excitation, in ns:Predissociated rotational levels lifetimes are given and used to precise the shape of the hill of the A In potential energy curve crossed by tunnel effect. The AIH dissociation energies .are fou~d:. for ~In" D.(eV) = 0.24±0.01 and for X I~+, D,(eV) = 3.16±0.01. The normal levels lifetimes vanatlOn With v is attributed to a configuration mixing in A In.

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The Cu+F2 chemiluminescent reaction revisited. II. Kinetic studies

Baltayan

Hartmann

Hikmet

et al. 1992

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Optical pumping, with a copper vapor laser, has been used to state select ground 2S1/2 and metastable 2D5/2 and 2D3/2 copper atoms in a fast flow, low pressure reactor combined with a hollow cathode sputtering source. The absolute densities of these atoms (around 2×1011 and 109 atoms cm−3 for 2S and 2D, respectively) were measured by resonant absorption and laser induced fluorescence techniques. Their isolated reactions with F2 have been studied in detail at 300 K. The total reaction cross section for Cu(2S) is almost four times larger than for Cu*(2D) metastable atoms. The strong chemiluminescent emission from electronically excited CuF* formed is attributed to the reaction of metastable Cu*(2D) atoms, the Cu(2S) reaction leading directly to ground state CuF(X 1Σ+) molecules. Spectral analysis of the chemiluminescence shows a highly inverted vibrational distribution in all energetically accessible excited states: a 3Σ+, b 3Π, B 1Σ+, C 1Π, and D 3Δ1 of CuF with <fv≳≊0.7. Branching ratios for formation of the molecules in these states have been determined for reaction of copper atoms in each of the three electronic states. From the highest vibrational levels populated by reaction of Cu*(2D5/2) with F2, vmax=21 and 26 for C 1Π and b 3Π states, respectively, one can deduce a more precise value of 33 560±240 cm−1 for the dissociation energy of the ground state CuF(X 1Σ+). The strong propensity observed for formation of CuF*(a,b,B,C,D) by Cu*(2D,3d94s2)+F2 and CuF(X 1Σ+) by Cu(2S,3d104s)+F2 reactions can be explained by conservation of the copper atom ionic core throughout the course of the reaction.

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The Cu + F2 chemiluminescent reaction revisited. I. Spectroscopy of the CuF product

Baltayan¹,

Hartmann²,

Pebay-Peyroula³

et al. 1988

Chemical Physics

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Determination of the rate constants for population of the individual Cd⁺* levels in thermal Penning and charge transfer reactions of He*(2³S₁) and He⁺with cadmium

Baltayan

Pebay-Peyroula

Sadeghi

1985

J. Phys. B: At. Mol. Phys.

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Excitation of the 3p 3Πu level of H2 by electron impact; pressure effects

Baltayan

Nedelec

1976

Journal of Quantitative Spectroscopy and Radiative Transfer

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P. Baltayan

Lifetimes and predissociation in (AlH(AlD) A1Π

The Cu+F2 chemiluminescent reaction revisited. II. Kinetic studies

The Cu + F2 chemiluminescent reaction revisited. I. Spectroscopy of the CuF product

Determination of the rate constants for population of the individual Cd⁺* levels in thermal Penning and charge transfer reactions of He*(2³S₁) and He⁺with cadmium

Excitation of the 3p 3Πu level of H2 by electron impact; pressure effects

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P. Baltayan

Lifetimes and predissociation in (AlH(AlD) A1Π

The Cu+F2 chemiluminescent reaction revisited. II. Kinetic studies

The Cu + F2 chemiluminescent reaction revisited. I. Spectroscopy of the CuF product

Determination of the rate constants for population of the individual Cd+* levels in thermal Penning and charge transfer reactions of He*(23S1) and He+with cadmium

Excitation of the 3p 3Πu level of H2 by electron impact; pressure effects

Contact Info

Product

Resources

About

Determination of the rate constants for population of the individual Cd⁺* levels in thermal Penning and charge transfer reactions of He*(2³S₁) and He⁺with cadmium