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Main Authors: Schio, L., Alagia, M., Moitra, T., Toffoli, D., Ponzi, A., Stener, M., Coriani, S., Decleva, P., Rebrov, O., Zhaunerchyk, V., Larsson, M., Falcinelli, S., Dias, A. A., Catone, D., Turchini, S., Zema, N., Salvador, F., Benedetti, D., Vivoda, D., Botta, B., Stranges, S.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2602.23223
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author Schio, L.
Alagia, M.
Moitra, T.
Toffoli, D.
Ponzi, A.
Stener, M.
Coriani, S.
Decleva, P.
Rebrov, O.
Zhaunerchyk, V.
Larsson, M.
Falcinelli, S.
Dias, A. A.
Catone, D.
Turchini, S.
Zema, N.
Salvador, F.
Benedetti, D.
Vivoda, D.
Botta, B.
Stranges, S.
author_facet Schio, L.
Alagia, M.
Moitra, T.
Toffoli, D.
Ponzi, A.
Stener, M.
Coriani, S.
Decleva, P.
Rebrov, O.
Zhaunerchyk, V.
Larsson, M.
Falcinelli, S.
Dias, A. A.
Catone, D.
Turchini, S.
Zema, N.
Salvador, F.
Benedetti, D.
Vivoda, D.
Botta, B.
Stranges, S.
contents A peculiar electron correlation effect, leading to orbital rotation upon ionization, theoretically predicted long ago, was never experimentally characterized. The effect is expected to appear prominently in the photoionization of chiral molecules, due to the lack of symmetry constraints to wave-functions mixing. This is observed to have a profound effect on the photoelectron dynamics, as here demonstrated by investigating \b{eta} asymmetry parameters and partial cross-section observables in the Cl 3p Cooper minimum region of epichlorohydrin, a chiral prototype system. Angle-resolved photoelectron spectroscopy with tunable synchrotron radiation allowed measuring Cooper minimum $β$ oscillations, which were observed for solely two valence photoionization channels. The nature and number of channels exhibiting such dynamical behavior, along with the extent of the observed oscillation amplitudes, could not be accounted for by predictions based on Hartree-Fock (HF) and Density Functional Theory (DFT). These features could only be explained by incorporating correlation effects, which mix single-hole configurations of identical symmetry, in the characterization of the four lowest-lying molecular cation states, via equation-of-motion coupled cluster singles and doubles Dyson orbitals.
format Preprint
id arxiv_https___arxiv_org_abs_2602_23223
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Evidence of orbital mixing upon ionization via Cooper minimum photoelectron dynamics in epichlorohydrin. Experiment and Theory
Schio, L.
Alagia, M.
Moitra, T.
Toffoli, D.
Ponzi, A.
Stener, M.
Coriani, S.
Decleva, P.
Rebrov, O.
Zhaunerchyk, V.
Larsson, M.
Falcinelli, S.
Dias, A. A.
Catone, D.
Turchini, S.
Zema, N.
Salvador, F.
Benedetti, D.
Vivoda, D.
Botta, B.
Stranges, S.
Chemical Physics
A peculiar electron correlation effect, leading to orbital rotation upon ionization, theoretically predicted long ago, was never experimentally characterized. The effect is expected to appear prominently in the photoionization of chiral molecules, due to the lack of symmetry constraints to wave-functions mixing. This is observed to have a profound effect on the photoelectron dynamics, as here demonstrated by investigating \b{eta} asymmetry parameters and partial cross-section observables in the Cl 3p Cooper minimum region of epichlorohydrin, a chiral prototype system. Angle-resolved photoelectron spectroscopy with tunable synchrotron radiation allowed measuring Cooper minimum $β$ oscillations, which were observed for solely two valence photoionization channels. The nature and number of channels exhibiting such dynamical behavior, along with the extent of the observed oscillation amplitudes, could not be accounted for by predictions based on Hartree-Fock (HF) and Density Functional Theory (DFT). These features could only be explained by incorporating correlation effects, which mix single-hole configurations of identical symmetry, in the characterization of the four lowest-lying molecular cation states, via equation-of-motion coupled cluster singles and doubles Dyson orbitals.
title Evidence of orbital mixing upon ionization via Cooper minimum photoelectron dynamics in epichlorohydrin. Experiment and Theory
topic Chemical Physics
url https://arxiv.org/abs/2602.23223