T
Tsveta Miteva
Researcher at University of Paris
Publications - 41
Citations - 333
Tsveta Miteva is an academic researcher from University of Paris. The author has contributed to research in topics: Interatomic Coulombic decay & Ionization. The author has an hindex of 10, co-authored 37 publications receiving 237 citations. Previous affiliations of Tsveta Miteva include Heidelberg University & Sofia University.
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Journal ArticleDOI
Competition between proton transfer and intermolecular Coulombic decay in water
Clemens Richter,Daniel Hollas,Clara-Magdalena Saak,Marko Förstel,Tsveta Miteva,Melanie Mucke,Olle Björneholm,Nicolas Sisourat,Petr Slavíček,Uwe Hergenhahn,Uwe Hergenhahn +10 more
TL;DR: The authors use electron–electron coincidence detection to find the competitive roles of proton transfer and ICD that occur on similar time scales in water clusters and infer an intrinsic ICD lifetime of 12–52 fs for small water clusters.
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Interatomic Coulombic decay following resonant core excitation of Ar in argon dimer.
Tsveta Miteva,Ying-Chih Chiang,Přemysl Kolorenč,Alexander I. Kuleff,Kirill Gokhberg,Lorenz S. Cederbaum +5 more
TL;DR: It is demonstrated that the manifold of ICD states populated in the resonant Auger process comprises two groups, one consists of lower energy ionization satellites characterized by fast interatomic decay, while the other consists of slow decaying higher energy ionized satellites.
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Virtual Photon Approximation for Three-Body Interatomic Coulombic Decay.
Robert Bennett,Petra Votavová,Přemysl Kolorenč,Tsveta Miteva,Nicolas Sisourat,Stefan Yoshi Buhmann +5 more
TL;DR: A virtual photon description of three-body ICD is developed, allowing us to investigate retardation and geometrical effects which are out of reach for current ab initio techniques and shows that a passive atom can have a significant influence on the rate of the ICD process at fairly large interatomic distances.
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Interatomic Coulombic electron capture from first principles
TL;DR: In this article, the authors employed the R-matrix method to compute ab initio these cross sections for a singly charged neon ion embedded in small helium clusters and showed that the ICEC cross sections are several orders of magnitude higher than anticipated and dominate other competing processes.
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Intermediate state representation approach to physical properties of dicationic states.
TL;DR: The second-order algebraic construction (ADC(2) approach to the two-particle propagator, devised to compute double ionization energies and associated spectroscopic amplitudes, is reformulated and extended using the concept of intermediate state representations (ISR).