Motomichi Tashiro

TL;DR: The observation of DCH states, which exhibit a unique signature, and agreement with theory proves the feasibility of double-core-hole spectroscopy, and exploit the ultrashort pulse duration of the free-electron laser to eject two core electrons on a time scale comparable to that of Auger decay and demonstrate possible future X-ray control of physical inner-shell processes.

TL;DR: It is believed that the present design principle can be applied to construct a wide range of two-dimensional noncovalent organic frameworks (2D-nCOFs) and create a pathway to the development of a new class of highly porous functional materials.

TL;DR: In this paper, double core hole electron spectroscopy for chemical analysis in terms of x-ray two-photon photoelectron spectroglobalization has been explored and the corresponding relaxation energies and the interatomic relaxation energies are evaluated by complete active space self-consistent field (CASSCF) calculations.

TL;DR: In this article, double core hole electron spectroscopy for chemical analysis in terms of x-ray two-photon photoelectron spectroscope (XTPPS) was explored.

TL;DR: Hollow molecules CH(4)(2+) and NH(3)(2)+ with double vacancies in the 1s shells have been measured using an efficient coincidence technique combined with synchrotron radiation and experimental evidence for such a state is presented with its theoretical interpretation.