Single Photon-Induced Symmetry Breaking of H₂ Dissociation

Single Photon-Induced Symmetry Breaking of H₂ Dissociation

H₂, the smallest and most abundant molecule in the universe, has a perfectly symmetric ground state. What does it take to break this symmetry? We found that the inversion symmetry can be broken by absorption of a linearly polarized photon, which itself has inversion symmetry. In particular, the emis...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2007-02, Vol.315 (5812), p.629-633
Hauptverfasser: Martín, F, Fernández, J, Havermeier, T, Foucar, L, Weber, Th, Kreidi, K, Schöffler, M, Schmidt, L, Jahnke, T, Jagutzki, O, Czasch, A, Benis, E.P, Osipov, T, Landers, A.L, Belkacem, A, Prior, M.H, Schmidt-Böcking, H, Cocke, C.L, Dörner, R
Format: Artikel
Sprache:eng
Schlagworte:
Angular distribution
Atomic and molecular physics
Atoms & subatomic particles
Autoionization
Broken symmetry
Diffuse spectra
predissociation, photodissociation
Electrons
Energy
Exact sciences and technology
Ionization
Lead
Molecular properties and interactions with photons
Molecules
Particle physics
Photoionization
Photon interactions with molecules
Photons
Physics
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Beschreibung
Zusammenfassung:H₂, the smallest and most abundant molecule in the universe, has a perfectly symmetric ground state. What does it take to break this symmetry? We found that the inversion symmetry can be broken by absorption of a linearly polarized photon, which itself has inversion symmetry. In particular, the emission of a photoelectron with subsequent dissociation of the remaining H ⁺₂ fragment shows no symmetry with respect to the ionic H⁺ and neutral H atomic fragments. This lack of symmetry results from the entanglement between symmetric and antisymmetric H ⁺₂ states that is caused by autoionization. The mechanisms behind this symmetry breaking are general for all molecules.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1136598