Your search keyword '"Ph Roux"' showing total 7 results

1. Coulombic fission and evaporation of antimony cluster ions

Author

J. Leygnier, J. Ph. Roux, F. Carlier, C. Bréchignac, M. de Frutos, and Ph. Cahuzac

Subjects

Fission, Chemistry, Dimer, Analytical chemistry, General Physics and Astronomy, chemistry.chemical_element, Photoionization, Dissociation (chemistry), Ion, Crystallography, chemistry.chemical_compound, Antimony, Physics::Atomic and Molecular Clusters, Mass spectrum, Cluster (physics), Physical and Theoretical Chemistry

Abstract

The preferential dissociation channels of singly and doubly charged antimony clusters have been determined from the unimolecular dissociation of energy rich cluster ions, using an ion stopping technique. It is found that singly charged Sb+n clusters with 5≤n≤80 dissociate by loss of neutral molecules. Neutral dimer loss is observed for n=5, 6, 7 whereas for n≥8, Sb+n loses Sb4. The fragmentation of doubly charged Sb++n has been investigated above the critical size n++c=24 from which doubly charged clusters are detectable in mass spectra. On the time scale of the experiment, which is 1 μs≤t≤100 μs with respect to photoionization, the delayed Coulombic fission into two singly charged clusters competes with the evaporation of Sb4. It is shown that for the smaller Sb++n clusters with 26≤n≤36 the fission to two singly charged clusters is of relatively asymmetrical character, leading to the detachment of five and seven atom cationic fragments. In larger clusters n≥40 the fission is of more symmetrical character...

Published

1995

2. Thermodynamical properties of ionized lithium oxide clusters, Li2n+pO+n

Author

F. Carlier, J. Leygnier, J. Ph. Roux, C. Bréchignac, Ph. Cahuzac, and M. de Frutos

Subjects

Chemistry, Inorganic chemistry, Evaporation, Nucleation, Oxide, Analytical chemistry, General Physics and Astronomy, Photoionization, Dissociation (chemistry), chemistry.chemical_compound, Cluster (physics), Lithium oxide, Physics::Chemical Physics, Physical and Theoretical Chemistry, Stoichiometry

Abstract

Lithium oxide clusters Li2n+pOn+ are generated by combining reactive nucleation in a gas aggregation source and photoionization. Unimolecular dissociation of mass selected cluster ions provides evidence that the excess of metal atoms evaporates first leading to the most stable species Li+(Li2O)n, which then evaporate Li2O molecules. The evaporation rate behavior as a function of cluster size demonstrates that Li+(Li2O)n can be prepared with different temperatures. It is discussed how metal evaporation from metal‐rich oxide clusters leads to oxygen saturated clusters with a lower temperature. An estimate of the dissociation energies of Li+(Li2O)n are given for small sizes n≤10 from photoevaporation experiment.

Published

1993

3. The scattering matrix for the Schrödinger operator with a long-range electromagnetic potential

Author

Dimitri Yafaev and Ph. Roux

Subjects

Scattering, Spectrum (functional analysis), Mathematical analysis, Statistical and Nonlinear Physics, Mathematical Operators, Schrödinger equation, Matrix (mathematics), symbols.namesake, Operator (computer programming), Unit circle, symbols, Scattering theory, Mathematical Physics, Mathematics, Mathematical physics

Abstract

We consider the Schrodinger operator H=(i∇+A)2+V in the space L2(Rd) with long-range electrostatic V(x) and magnetic A(x) potentials. Using the scheme of smooth perturbations, we give an elementary proof of the existence and completeness of modified wave operators for the pair H0=−Δ, H. Our main goal is to study spectral properties of the corresponding scattering matrix S(λ). We obtain its stationary representation and show that its singular part (up to compact terms) is a pseudodifferential operator with an oscillating amplitude which is an explicit function of V and A. Finally, we deduce from this result that, in general, for each λ>0 the spectrum of S(λ) covers the whole unit circle.

Published

2003

4. Photodissociation of size‐selected K+n clusters

Author

J. Ph. Roux, C. Bréchignac, and Ph. Cahuzac

Subjects

Fragmentation (mass spectrometry), Chemistry, Fission, Ionization, Photodissociation, Binding energy, Physics::Atomic and Molecular Clusters, General Physics and Astronomy, Physical and Theoretical Chemistry, Atomic physics, Mass spectrometry, Spectral line, Ion

Abstract

Photofragmentation studies are described for size‐selected ionized potassium‐atom clusters, generated in a supersonic expansion and analyzed with a tandem time‐of‐flight system. In the range n=3 to 41 the relative ion intensities in photofragmentation spectra reflect the relative stabilities of the ion products. Moreover the photon‐energy dependence of the fragmentation patterns suggests that photodissociation proceeds rather via a fast sequential evaporation of neutral monomers than via a fission process. A value can be deduced for the mean binding energy per atom which is increasing with the cluster size.

Published

1988

5. Photoionization of potassium clusters: Neutral and ionic cluster stabilities

Author

J. Ph. Roux, C. Bréchignac, and Ph. Cahuzac

Subjects

Chemistry, Nucleation, General Physics and Astronomy, Ionic bonding, Photoionization, Mass spectrometry, Spectral line, Ion, Ionization, Physics::Atomic and Molecular Clusters, Cluster (physics), Physics::Atomic Physics, Physical and Theoretical Chemistry, Atomic physics

Abstract

Neutral potassium clusters of two different mass distributions generated either by a sonic or a conical nozzle were photoionized at several ionizing energies. By combining different nucleation conditions with several photoionization situations, variations of ion mass spectral patterns reflecting either neutral or ionic stabilities were obtained. The spectra show peaks or steps for those neutral and ionized clusters which contain 8, 20, and 40 electrons. These can be understood in terms of electronic shell structure for both neutral and ionized potassium clusters. However local irregularities appearing for the small cluster sizes reveal the influence of their geometrical structure. Moreover ionizing laser power dependencies taken at various photon energies were used to study fragmentation effects following ionization.

Published

1987

6. Adiabatic unimolecular dissociation of heterogeneous alkali clusters

Author

J. Ph. Roux, Ph. Cahuzac, R. Pflaum, and C. Bréchignac

Subjects

Chemistry, Dimer, Evaporation, General Physics and Astronomy, Ionic bonding, Mass spectrometry, Alkali metal, Dissociation (chemistry), chemistry.chemical_compound, Chemical physics, Metastability, Cluster (physics), Physical and Theoretical Chemistry, Atomic physics

Abstract

The unimolecular dissociation of metastable photoionized mass‐selected heterogeneous alkali clusters is investigated using a tandem time‐of‐flight spectrometer. NaK+n and Nan K+ are found to dissociate by evaporation of either a single neutral atom or a neutral dimer of the most abundant constituant. This behavior differs from the evaporation of heterogeneous neutral clusters which might always evaporate potassium in order to explain the sodium enrichment in the NaxKy neutral cluster distributions. This difference in the dissociation patterns of neutral and ionic heterogeneous clusters puts into evidence the influence of the charge in unimolecular dissociation processes.

Published

1988

7. Adiabatic decomposition of mass‐selected alkali clusters

Author

Ph. Cahuzac, J. Ph. Roux, D. Pavolini, C. Bréchignac, and F. Spiegelmann

Subjects

Chemistry, Dimer, General Physics and Astronomy, Mass spectrometry, Alkali metal, Decomposition, Dissociation (chemistry), chemistry.chemical_compound, Fragmentation (mass spectrometry), Metastability, Physics::Atomic and Molecular Clusters, Physics::Atomic Physics, Physical and Theoretical Chemistry, Atomic physics, Adiabatic process

Abstract

The decomposition of metastable photoionized mass‐selected alkali clusters is investigated using a tandem time‐of‐flight spectrometer. Na+n and K+n are found to decompose mainly by the evaporation of either a single neutral atom or a neutral dimer in a time scale of about 10 μs. The predominant fragmentation channels are found to follow the adiabatic dissociation channels associated with the lowest energies accordingly to our CI calculations. In the light of our experimental and theoretical results a comparison between the different calculations of the absolute atomization energies available in the literature is presented.

Published

1987