Laser excitation of BCl3 and consequential collision-induced reaction with carrier gases

Explicit relations are developed to estimate the outflux of migrating isotopomersiQF6to the outskirts of a supersonic supercooled free jet whose core is irradiated by a co-axial laser beam and intercepted by a skimmer that separates core gas from peripheral gases. The QF6target gas is diluted in carrier gas G (G = He, N2, Ar, Xe, SF6, etc.) which determines the jet's supersonic characteristics and forms QF6:G dimers at low temperatures. Under isotope-selective laser excitation, excitediQF6* convert their vibrational energy V into kinetic energy T after forming transientiQF6*:G dimers that dissociate in sub-microseconds. Three migrating groups with different transport parameters are created in the jet: thermal monomers, faster-moving epithermal monomers, and slower-moving dimers. Jet-core-fleeing QF6is enriched iniQF6due to enhanced outwards migration ofiQF6!epithermals and reduced escape ofjQF6:G dimers in the jet. Isotope enrichments in the rim gases are highest for heavier carrier gases such as G = Xe or G = SF6.

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Laser excitation of surface acoustic waves: a new direction in opto-acoustic spectroscopy of a solid

Uspekhi Fizicheskih Nauk ◽

10.3367/ufnr.0147.198511g.0605 ◽

1985 ◽

Vol 147 (11) ◽

pp. 605 ◽

Cited By ~ 12

Author(s):

A.A. Karabutov

Keyword(s):

Acoustic Waves ◽

Laser Excitation ◽

Surface Acoustic Waves ◽

Acoustic Spectroscopy

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Novel Products in the CO2-Laser Induced Reaction of Trichloroethylene

Collection of Czechoslovak Chemical Communications ◽

10.1135/cccc19950104 ◽

1995 ◽

Vol 60 (1) ◽

pp. 104-114 ◽

Cited By ~ 6

Author(s):

Boyd L. Earl ◽

Richard L. Titus

Keyword(s):

Irradiation Time ◽

Product Distribution ◽

Incident Power ◽

Cell Geometry ◽

Reaction Conditions ◽

Peak Areas ◽

Induced Decomposition ◽

Nmr Methods ◽

Induced Reaction ◽

Novel Products

Previous reports on the thermal or CO2-laser induced decomposition of trichloroethylene have identified only one condensible product, hexachlorobenzene (in addition to HCl and mono- and dichloroacetylene). We have found that trichloroethylene vapor exposed to cw irradiation on the P(24) line of the (001 - 100) band of the CO2 laser at incident power levels from 8 - 17 W produces numerous products, of which the 13 major ones have been identified using IR, GC/MS, GC/FTIR, and NMR methods. All of these products have 4, 6, or 8 carbons, are highly unsaturated, and are completely chlorinated or contain a single hydrogen. C4HCl5 and C6Cl6 isomers (three of each) account for S 55% to 85% of total products (based on peak areas in the total ion chromatograms in GC/MS runs), depending on reaction conditions. In addition to characterizing the products, we discuss the dependence of the product distribution on laser power, irradiation time, and cell geometry, and we outline a possible mechanism.

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ChemInform Abstract: LIGHT-INDUCED REACTION OF BORACYCLANES WITH BROMINE IN THE PRESENCE OF WATER, RING CONTRACTION OF BORACYCLANES TO PRODUCE CARBOCYCLIC STRUCTURES

Chemischer Informationsdienst ◽

10.1002/chin.197405235 ◽

1974 ◽

Vol 5 (5) ◽

pp. no-no

Author(s):

Y. YAMAMOTO ◽

H. C. BROWN

Keyword(s):

Ring Contraction ◽

Water Ring ◽

Induced Reaction

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From Semiconductor to Metal in a Flash: Observing Ultrafast Laser-Induced Phase Transformations

MRS Proceedings ◽

10.1557/proc-481-395 ◽

1997 ◽

Vol 481 ◽

Cited By ~ 3

Author(s):

J. P. Callan ◽

A. M.-T. Kim ◽

L. Huangt ◽

E. N. Glezer ◽

E. Mazur

Keyword(s):

Phase Transformations ◽

Dielectric Function ◽

Spectral Range ◽

Laser Excitation ◽

Spectroscopic Technique ◽

Ultrafast Laser ◽

Lattice Heating ◽

Fs Laser

ABSTRACTWe use a new broadband spectroscopic technique to measure ultrafast changes in the dielectric function of a material over the spectral range 1.5–3.5 eV following intense 70-fs laser excitation. The results reveal the nature of the phase transformations which occur in the material following excitation. We studied the response of GaAs and Si. For GaAs, there are three distinct regimes of behavior as the pump fluence is increased — lattice heating, lattice disordering, and a semiconductor-to-metal transition.

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The influence of chemical parameters on the in-situ metal carbonyl complex formation studied with the fast on-line reaction apparatus (FORA)

Radiochimica Acta ◽

10.1515/ract-2020-0031 ◽

2021 ◽

Vol 109 (4) ◽

pp. 243-260 ◽

Cited By ~ 1

Author(s):

Yves Wittwer ◽

Robert Eichler ◽

Dominik Herrmann ◽

Andreas Türler

Keyword(s):

Metal Carbonyl ◽

Ambient Air ◽

Single Atom ◽

Carbonyl Complex ◽

Carbonyl Complexes ◽

On Line ◽

Carrier Gases ◽

And Performance ◽

Atom Chemistry

Abstract A new setup named Fast On-line Reaction Apparatus (FORA) is presented which allows for the efficient investigation and optimization of metal carbonyl complex (MCC) formation reactions under various reaction conditions. The setup contains a 252Cf-source producing short-lived Mo, Tc, Ru and Rh isotopes at a rate of a few atoms per second by its 3% spontaneous fission decay branch. Those atoms are transformed within FORA in-situ into volatile metal carbonyl complexes (MCCs) by using CO-containing carrier gases. Here, the design, operation and performance of FORA is discussed, revealing it as a suitable setup for performing single-atom chemistry studies. The influence of various gas-additives, such as CO2, CH4, H2, Ar, O2, H2O and ambient air, on the formation and transport of MCCs was investigated. O2, H2O and air were found to harm the formation and transport of MCCs in FORA, with H2O being the most severe. An exception is Tc, for which about 130 ppmv of H2O caused an increased production and transport of volatile compounds. The other gas-additives were not influencing the formation and transport efficiency of MCCs. Using an older setup called Miss Piggy based on a similar working principle as FORA, it was additionally investigated if gas-additives are mostly affecting the formation or only the transport stability of MCCs. It was found that mostly formation is impacted, as MCCs appear to be much less sensitive to reacting with gas-additives in comparison to the bare Mo, Tc, Ru and Rh atoms.

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