Fragmentation processes : topics in atomic and molecular physics / edited by Colm T. Whelan, Old Dominion University.
"Revolutionary advances in experimental techniques and spectacular increases in computer power over recent years have enabled researchers to develop a much more profound understanding of the atomic few-body problem. One area of intense focus has been the study of fragmentation processes. Coveri...
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Language: | English |
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Cambridge :
Cambridge University Press,
2012.
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245 | 0 | 0 | |a Fragmentation processes : |b topics in atomic and molecular physics / |c edited by Colm T. Whelan, Old Dominion University. |
260 | |a Cambridge : |b Cambridge University Press, |c 2012. | ||
300 | |a 1 online resource. | ||
336 | |a text |b txt |2 rdacontent. | ||
337 | |a computer |b c |2 rdamedia. | ||
338 | |a online resource |b cr |2 rdacarrier. | ||
504 | |a Includes bibliographical references and index. | ||
505 | 0 | |a Intro -- Contents -- Contributors -- Preface -- 1 Direct and resonant double photoionization: from atoms to solids -- 1.1 Introduction -- 1.2 Direct double photoionization -- 1.2.1 The He atom -- 1.2.2 The H2 molecule and the four-body problem -- 1.2.3 Direct DPI in solids and surfaces -- 1.3 Indirect double photoionization -- 1.3.1 Auger photoelectron coincidence spectroscopy (APECS) applied to molecules -- 1.3.2 Auger photoelectron coincidence spectroscopy(APECS) applied to solids -- 1.3.3 Interference and coherence effects in indirect double photoionization -- 1.4 Conclusions -- References -- 2 The application of propagating exterior complex scaling to atomic collisions -- 2.1 Introduction -- 2.2 Introduction to exterior complex scaling -- 2.2.1 A one-dimensional example -- 2.2.2 Numerical method: propagating exterior complex scaling -- 2.3 Application of ECS to electron-hydrogen scattering -- 2.3.1 Extracting scattering amplitudes from surface integrals -- 2.3.2 Propagating exterior complex scaling considerations -- 2.4 Scattering in electron-hydrogen system -- 2.5 Exterior complex scaling for electron-helium scattering -- 2.5.1 Extracting scattering amplitudes -- 2.5.2 S-wave model for electron-helium scattering -- 2.6 Summary and outlook for the future -- References -- 3 Fragmentation of molecular-ion beams in intense ultrashort laser pulses -- 3.1 Introduction -- 3.2 Experimental method -- 3.2.1 Laser -- 3.2.2 Ion beam -- 3.2.3 Crossing the laser and ion beams -- 3.2.4 Coincidence beam-fragment measurements -- 3.2.5 Coincidence 3D momentum imaging of beam fragments -- 3.3 Benchmark molecules -- 3.3.1 One electron diatomic molecule -- H2+ -- 3.3.2 Simplest polyatomic molecule -- H3+ -- 3.4 Complex and/or unique molecular ions -- 3.4.1 Vibrationally cold molecular ions -- CO2+ -- 3.4.2 Vibrationally semi-cold molecular ions -- NO2+ | |
505 | 8 | |a 3.4.3 Other complex molecular ions -- 3.5 Summary and outlook -- References -- 4 Atoms with one and two active electrons in strong laser fields -- 4.1 Introduction -- 4.2 Theoretical model -- 4.3 Two-photon double ionization of helium -- 4.4 DC-assisted double photoionization of He and H- -- 4.5 Strong-field ionization of lithium and hydrogen -- 4.6 High harmonics generation -- 4.7 Time delay in atomic photoionization -- References -- 5 Experimental aspects of ionization studies by positron and positronium impact -- 5.1 Introduction -- 5.2 Integral cross sections for positron impact ionization -- 5.3 Differential cross sections for positron impact ionization -- 5.4 Positronium-induced fragmentation -- 5.5 Conclusions and outlook -- References -- 6 (e,2e) spectroscopy spectroscopy using fragmentation processes -- 6.1 Introduction -- 6.2 Background -- 6.3 Theory -- 6.4 Electron momentum spectroscopy results -- 6.5 Low-energy (e,2e) results -- 6.6 Conclusion -- References -- 7 A coupled pseudostate approach to the calculation of ion-atom fragmentation processes -- 7.1 Introduction -- 7.2 Theory -- 7.2.1 The impact parameter method and extraction of the differential motion of the projectile -- 7.2.2 Extracting the differential motion of the ejected electron -- 7.3 Antiproton-induced ionization -- References -- 8 Electron impact ionization using (e,2e) coincidence techniques from threshold to intermediate energies -- 8.1 Introduction -- 8.1.1 Description of the experimental coincidence technique -- 8.1.2 (e,2e) experiments near threshold -- 8.1.3 (e,2e) experiments from threshold to intermediate energies -- 8.1.4 Summary -- 8.2 Experimental methods and techniques -- 8.2.1 Materials -- 8.2.2 Design of the electron gun and analyzers -- 8.2.3 Example: the (e,2e) spectrometer in Manchester -- 8.2.4 Multi-detection -- the COLTRIMS reaction microscope. | |
505 | 8 | |a 8.3 Theoretical models -- 8.3.1 Near threshold -- 8.3.2 The intermediate energy regime -- 8.4 Atomic targets -- 8.4.1 Near-threshold measurements on helium -- 8.4.2 Measurements on helium at intermediate energies -- 8.4.3 Measurements on the noble gases in the perpendicular plane -- 8.5 Molecular targets -- 8.5.1 Measurements from H2 -- 8.5.2 Measurements from polyatomic molecules -- 8.6 Experiments from laser-aligned atoms -- 8.6.1 The laser excitation process -- 8.6.2 Ionization from laser-excited magnesium -- 8.7 Future work and conclusions -- References -- 9 (e,2e) processes on atomic inner shells -- 9.1 (e,2e) processes -- an overview -- 9.2 Non-relativistic theory -- 9.3 The distorted wave Born approximation -- 9.3.1 Geometries -- 9.3.2 The ionization of the 2p state of argon -- 9.4 Inner-shell ionization of heavy metal targets at relativisticimpact energies -- 9.4.1 Relativistic, distorted wave Born approximation -- 9.5 General features of the cross section -- 9.5.1 Coplanar asymmetric-Ehrhardt-geometry -- 9.5.2 Coplanar symmetric-Pochat-geometry -- 9.6 Special features -- 9.6.1 Spin-dependent effects using unpolarized beams on unpolarized targets -- 9.6.2 Distortion effects -- References -- 10 Spin-resolved atomic (e,2e) processes -- 10.1 Introduction -- 10.2 Experimental considerations -- 10.2.1 Definition of measured and derived parameters -- 10.2.2 Generation of spin-polarized electron beams -- 10.3 Low-Z targets and low electron impact energies -- 10.4 High-Z targets and low electron impact energies -- 10.5 High-Z targets and high electron impact energies -- 10.6 Longitudinally polarized electrons -- 10.7 Conclusion -- References -- Index. | |
520 | |a "Revolutionary advances in experimental techniques and spectacular increases in computer power over recent years have enabled researchers to develop a much more profound understanding of the atomic few-body problem. One area of intense focus has been the study of fragmentation processes. Covering the latest research in the field, this edited text is the first to provide a focussed and systematic treatment of fragmentation processes, bringing together contributions from a range of leading experts. As well as tackling the more established electron-impact ionization processes, (e,2e), this book also guides the reader through topics such as molecular fragmentation, ion-atom collisions and multi-photon processes. Combining a broad range of topics with an equal mix of theoretical and experimental discussion, this is an invaluable text for graduate students and researchers in atomic collisions, laser physics and chemistry"-- |c Provided by publisher. | ||
546 | |a Text in English. | ||
588 | 0 | |a Print version record. | |
650 | 0 | |a Few-body problem. | |
650 | 0 | |a Ion-atom collisions. | |
650 | 0 | |a Nuclear fragmentation. | |
650 | 7 | |a Few-body problem. |2 fast |0 (OCoLC)fst00923539. | |
650 | 7 | |a Ion-atom collisions. |2 fast |0 (OCoLC)fst00978605. | |
650 | 7 | |a Nuclear fragmentation. |2 fast |0 (OCoLC)fst01040171. | |
700 | 1 | |a Whelan, Colm T., |e editor. | |
776 | 0 | 8 | |i Print version: |t Fragmentation processes. |d Cambridge : Cambridge University Press, 2012 |z 9781107007444 |w (DLC) 2012035049 |w (OCoLC)795763384. |
856 | 4 | 0 | |u https://ebookcentral.proquest.com/lib/ucb/detail.action?docID=1099841 |z Full Text (via ProQuest) |
907 | |a .b101656671 |b 04-13-21 |c 08-08-18 | ||
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952 | f | f | |p Can circulate |a University of Colorado Boulder |b Online |c Online |d Online |e QC174.17.P7 F72 2012eb |h Library of Congress classification |i web |n 1 |