1999
DOI: 10.1146/annurev.physchem.50.1.347
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CROSSED-BEAM STUDIES OF REACTION DYNAMICS

Abstract: This article reviews recent progress in our understanding of gas-phase neutral reaction dynamics as made possible by improvements in the crossed molecular beam scattering technique for measuring reactive differential cross sections. A selection of crossed-beam studies on systems that play a fundamental role in our basic understanding of reaction phenomena are discussed to illustrate the capabilities of the experimental method. The examples include benchmark atom-diatom abstraction and insertion reactions, and … Show more

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Cited by 106 publications
(62 citation statements)
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References 231 publications
(238 reference statements)
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“…47,48 Briefly, two well collimated supersonic beams of the reagents are crossed at 90°in a large scattering chamber with background pressure in the 10 Ϫ7 mbar range, which assures the single collision conditions, and a mass spectrometer, contained in a triply differentially pumped ultrahigh-vacuum chamber, serves as detector of the reaction products. The mass spectrometer can be rotated in the collision plane around an axis passing through the collision center and the velocities of the particles can be derived from time-of-flight ͑TOF͒ measurements.…”
Section: A the Crossed Molecular Beam Experimentsmentioning
confidence: 99%
“…47,48 Briefly, two well collimated supersonic beams of the reagents are crossed at 90°in a large scattering chamber with background pressure in the 10 Ϫ7 mbar range, which assures the single collision conditions, and a mass spectrometer, contained in a triply differentially pumped ultrahigh-vacuum chamber, serves as detector of the reaction products. The mass spectrometer can be rotated in the collision plane around an axis passing through the collision center and the velocities of the particles can be derived from time-of-flight ͑TOF͒ measurements.…”
Section: A the Crossed Molecular Beam Experimentsmentioning
confidence: 99%
“…A number of methods exist for preparing molecules with large, well-defined, and controllable amounts of energy in electronic, translational, and vibrational degrees of freedom, but until recently, it has been much more difficult to exert control over the rotational energy of molecules (1)(2)(3)(4)(5)(6)(7)(8)(9)(10)(11)(12)(13)(14). Traditional methods for optically preparing rotationally hot molecules are limited by strict selection rules that constrain angular momentum changes to small values (15,16).…”
mentioning
confidence: 99%
“…We still do not have a suitable method for directly obtaining structural information about the reaction site or active intermediates through the reaction itself. In gas-phase reactions, methods for approaching the potential energy surface (PES) have been established using both chemical kinetics and reaction dynamics [7]. This paper reviews energy partitioning requisite for surface reaction dynamics in both reactant adsorption and product desorption.…”
mentioning
confidence: 99%
“…The structural information on surface-reaction sites and the configuration of the transition state will be found in reaction dynamics dealing with energy partitioning as well as the product velocity distribution in terms of the PES, as is usually the case in gas-phase reactions. Information on the transition state conformation (TS) in gas-phase reactions is deduced from the spatial and energy distributions of emitted products before energy dissipation for various collision energies [7] or by femto-second spectroscopy during molecular transformation [8]. In the case of surface reactions, such information, if obtained, will be able to provide the structure of active sites or intermediates which have been surveyed for nearly a century.…”
mentioning
confidence: 99%