Quantum and semiclassical dynamics of differential optical collisions
| ISSN: |
1434-6079
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| Keywords: |
PACS. 32.70.-n Intensities and shapes of atomic spectral lines - 34.20.Cf Interatomic potentials and forces - 34.50.Rk Laser modified scattering and reactions
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| Source: |
Springer Online Journal Archives 1860-2000
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| Topics: |
Physics
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| Notes: |
Abstract: We apply quantum and semiclassical theories to differential optical collisions Na(32S1/2) + Kr + Na(32P1/2,3/2) + Kr. Our results provide a basis to analyze recent experiments in which for the first time optical collisions were investigated with angular resolution under crossed-beam conditions. A characteristic feature of the differential cross sections is the pronounced oscillatory structure due to interferences of different Condon paths. These Stueckelberg oscillations form an extremely sensitive probe of the collisional dynamics and of the molecular interactions. We demonstrate perspectives to determine geometric properties of the collision complex by excitation with polarized light. By final state analysis nonadiabatic (spin-orbit, rotational) interactions can be studied with complete control of the path. In summary it is shown that the method of differential detection of optical collisions opens a variety of new accesses to atomic and molecular subcollisions.
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| Type of Medium: |
Electronic Resource
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| URL: |
| _version_ | 1798297641398829056 |
|---|---|
| autor | Rebentrost, F. Klose, S. Grosser, J. |
| autorsonst | Rebentrost, F. Klose, S. Grosser, J. |
| book_url | http://dx.doi.org/10.1007/s100530050094 |
| datenlieferant | nat_lic_papers |
| hauptsatz | hsatz_simple |
| identnr | NLM189694319 |
| issn | 1434-6079 |
| journal_name | The European physical journal |
| materialart | 1 |
| notes | Abstract: We apply quantum and semiclassical theories to differential optical collisions Na(32S1/2) + Kr + Na(32P1/2,3/2) + Kr. Our results provide a basis to analyze recent experiments in which for the first time optical collisions were investigated with angular resolution under crossed-beam conditions. A characteristic feature of the differential cross sections is the pronounced oscillatory structure due to interferences of different Condon paths. These Stueckelberg oscillations form an extremely sensitive probe of the collisional dynamics and of the molecular interactions. We demonstrate perspectives to determine geometric properties of the collision complex by excitation with polarized light. By final state analysis nonadiabatic (spin-orbit, rotational) interactions can be studied with complete control of the path. In summary it is shown that the method of differential detection of optical collisions opens a variety of new accesses to atomic and molecular subcollisions. |
| package_name | Springer |
| publikationsjahr_anzeige | 1998 |
| publikationsjahr_facette | 1998 |
| publikationsjahr_intervall | 8004:1995-1999 |
| publikationsjahr_sort | 1998 |
| publisher | Springer |
| reference | 1 (1998), S. 277-289 |
| schlagwort | PACS. 32.70.-n Intensities and shapes of atomic spectral lines - 34.20.Cf Interatomic potentials and forces - 34.50.Rk Laser modified scattering and reactions |
| search_space | articles |
| shingle_author_1 | Rebentrost, F. Klose, S. Grosser, J. |
| shingle_author_2 | Rebentrost, F. Klose, S. Grosser, J. |
| shingle_author_3 | Rebentrost, F. Klose, S. Grosser, J. |
| shingle_author_4 | Rebentrost, F. Klose, S. Grosser, J. |
| shingle_catch_all_1 | Rebentrost, F. Klose, S. Grosser, J. Quantum and semiclassical dynamics of differential optical collisions PACS. 32.70.-n Intensities and shapes of atomic spectral lines - 34.20.Cf Interatomic potentials and forces - 34.50.Rk Laser modified scattering and reactions PACS. 32.70.-n Intensities and shapes of atomic spectral lines - 34.20.Cf Interatomic potentials and forces - 34.50.Rk Laser modified scattering and reactions Abstract: We apply quantum and semiclassical theories to differential optical collisions Na(32S1/2) + Kr + Na(32P1/2,3/2) + Kr. Our results provide a basis to analyze recent experiments in which for the first time optical collisions were investigated with angular resolution under crossed-beam conditions. A characteristic feature of the differential cross sections is the pronounced oscillatory structure due to interferences of different Condon paths. These Stueckelberg oscillations form an extremely sensitive probe of the collisional dynamics and of the molecular interactions. We demonstrate perspectives to determine geometric properties of the collision complex by excitation with polarized light. By final state analysis nonadiabatic (spin-orbit, rotational) interactions can be studied with complete control of the path. In summary it is shown that the method of differential detection of optical collisions opens a variety of new accesses to atomic and molecular subcollisions. 1434-6079 14346079 Springer |
| shingle_catch_all_2 | Rebentrost, F. Klose, S. Grosser, J. Quantum and semiclassical dynamics of differential optical collisions PACS. 32.70.-n Intensities and shapes of atomic spectral lines - 34.20.Cf Interatomic potentials and forces - 34.50.Rk Laser modified scattering and reactions PACS. 32.70.-n Intensities and shapes of atomic spectral lines - 34.20.Cf Interatomic potentials and forces - 34.50.Rk Laser modified scattering and reactions Abstract: We apply quantum and semiclassical theories to differential optical collisions Na(32S1/2) + Kr + Na(32P1/2,3/2) + Kr. Our results provide a basis to analyze recent experiments in which for the first time optical collisions were investigated with angular resolution under crossed-beam conditions. A characteristic feature of the differential cross sections is the pronounced oscillatory structure due to interferences of different Condon paths. These Stueckelberg oscillations form an extremely sensitive probe of the collisional dynamics and of the molecular interactions. We demonstrate perspectives to determine geometric properties of the collision complex by excitation with polarized light. By final state analysis nonadiabatic (spin-orbit, rotational) interactions can be studied with complete control of the path. In summary it is shown that the method of differential detection of optical collisions opens a variety of new accesses to atomic and molecular subcollisions. 1434-6079 14346079 Springer |
| shingle_catch_all_3 | Rebentrost, F. Klose, S. Grosser, J. Quantum and semiclassical dynamics of differential optical collisions PACS. 32.70.-n Intensities and shapes of atomic spectral lines - 34.20.Cf Interatomic potentials and forces - 34.50.Rk Laser modified scattering and reactions PACS. 32.70.-n Intensities and shapes of atomic spectral lines - 34.20.Cf Interatomic potentials and forces - 34.50.Rk Laser modified scattering and reactions Abstract: We apply quantum and semiclassical theories to differential optical collisions Na(32S1/2) + Kr + Na(32P1/2,3/2) + Kr. Our results provide a basis to analyze recent experiments in which for the first time optical collisions were investigated with angular resolution under crossed-beam conditions. A characteristic feature of the differential cross sections is the pronounced oscillatory structure due to interferences of different Condon paths. These Stueckelberg oscillations form an extremely sensitive probe of the collisional dynamics and of the molecular interactions. We demonstrate perspectives to determine geometric properties of the collision complex by excitation with polarized light. By final state analysis nonadiabatic (spin-orbit, rotational) interactions can be studied with complete control of the path. In summary it is shown that the method of differential detection of optical collisions opens a variety of new accesses to atomic and molecular subcollisions. 1434-6079 14346079 Springer |
| shingle_catch_all_4 | Rebentrost, F. Klose, S. Grosser, J. Quantum and semiclassical dynamics of differential optical collisions PACS. 32.70.-n Intensities and shapes of atomic spectral lines - 34.20.Cf Interatomic potentials and forces - 34.50.Rk Laser modified scattering and reactions PACS. 32.70.-n Intensities and shapes of atomic spectral lines - 34.20.Cf Interatomic potentials and forces - 34.50.Rk Laser modified scattering and reactions Abstract: We apply quantum and semiclassical theories to differential optical collisions Na(32S1/2) + Kr + Na(32P1/2,3/2) + Kr. Our results provide a basis to analyze recent experiments in which for the first time optical collisions were investigated with angular resolution under crossed-beam conditions. A characteristic feature of the differential cross sections is the pronounced oscillatory structure due to interferences of different Condon paths. These Stueckelberg oscillations form an extremely sensitive probe of the collisional dynamics and of the molecular interactions. We demonstrate perspectives to determine geometric properties of the collision complex by excitation with polarized light. By final state analysis nonadiabatic (spin-orbit, rotational) interactions can be studied with complete control of the path. In summary it is shown that the method of differential detection of optical collisions opens a variety of new accesses to atomic and molecular subcollisions. 1434-6079 14346079 Springer |
| shingle_title_1 | Quantum and semiclassical dynamics of differential optical collisions |
| shingle_title_2 | Quantum and semiclassical dynamics of differential optical collisions |
| shingle_title_3 | Quantum and semiclassical dynamics of differential optical collisions |
| shingle_title_4 | Quantum and semiclassical dynamics of differential optical collisions |
| sigel_instance_filter | dkfz geomar wilbert ipn albert fhp |
| source_archive | Springer Online Journal Archives 1860-2000 |
| timestamp | 2024-05-06T10:11:13.740Z |
| titel | Quantum and semiclassical dynamics of differential optical collisions |
| titel_suche | Quantum and semiclassical dynamics of differential optical collisions |
| topic | U |
| uid | nat_lic_papers_NLM189694319 |