Setting benchmarks for modelling gas–surface interactions using coherent control of rotational orientation states

Setting benchmarks for modelling gas–surface interactions using coherent control of rotational orientation states

A fundamental and predictive understanding of molecule-surface interactions is challenging to obtain. Here the authors report an experimental technique allowing direct measurement of the scattering matrix, which reports on the coherent evolution of quantum states of a molecule scattering from a surf...

Full description

Bibliographic Details
Main Authors: Yosef Alkoby, Helen Chadwick, Oded Godsi, Hamza Labiad, Matthew Bergin, Joshua T. Cantin, Ilya Litvin, Tsofar Maniv, Gil Alexandrowicz
Format: Article
Language:English
Published: Nature Publishing Group 2020-06-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-020-16930-1
id doaj-69af88becf9b463eb4f438019684a861
record_format Article
spelling doaj-69af88becf9b463eb4f438019684a8612021-06-20T11:15:24ZengNature Publishing GroupNature Communications2041-17232020-06-011111810.1038/s41467-020-16930-1Setting benchmarks for modelling gas–surface interactions using coherent control of rotational orientation statesYosef Alkoby0Helen Chadwick1Oded Godsi2Hamza Labiad3Matthew Bergin4Joshua T. Cantin5Ilya Litvin6Tsofar Maniv7Gil Alexandrowicz8Department of Chemistry, College of Science, Swansea UniversityDepartment of Chemistry, College of Science, Swansea UniversitySchulich Faculty of Chemistry, Technion Israel Institute of TechnologyDepartment of Chemistry, College of Science, Swansea UniversityDepartment of Chemistry, College of Science, Swansea UniversityDepartment of Chemistry, College of Science, Swansea UniversitySchulich Faculty of Chemistry, Technion Israel Institute of TechnologySchulich Faculty of Chemistry, Technion Israel Institute of TechnologyDepartment of Chemistry, College of Science, Swansea UniversityA fundamental and predictive understanding of molecule-surface interactions is challenging to obtain. Here the authors report an experimental technique allowing direct measurement of the scattering matrix, which reports on the coherent evolution of quantum states of a molecule scattering from a surface.https://doi.org/10.1038/s41467-020-16930-1
collection DOAJ
language English
format Article
sources DOAJ
author Yosef Alkoby
Helen Chadwick
Oded Godsi
Hamza Labiad
Matthew Bergin
Joshua T. Cantin
Ilya Litvin
Tsofar Maniv
Gil Alexandrowicz
spellingShingle Yosef Alkoby
Helen Chadwick
Oded Godsi
Hamza Labiad
Matthew Bergin
Joshua T. Cantin
Ilya Litvin
Tsofar Maniv
Gil Alexandrowicz
Setting benchmarks for modelling gas–surface interactions using coherent control of rotational orientation states
Nature Communications
author_facet Yosef Alkoby
Helen Chadwick
Oded Godsi
Hamza Labiad
Matthew Bergin
Joshua T. Cantin
Ilya Litvin
Tsofar Maniv
Gil Alexandrowicz
author_sort Yosef Alkoby
title Setting benchmarks for modelling gas–surface interactions using coherent control of rotational orientation states
title_short Setting benchmarks for modelling gas–surface interactions using coherent control of rotational orientation states
title_full Setting benchmarks for modelling gas–surface interactions using coherent control of rotational orientation states
title_fullStr Setting benchmarks for modelling gas–surface interactions using coherent control of rotational orientation states
title_full_unstemmed Setting benchmarks for modelling gas–surface interactions using coherent control of rotational orientation states
title_sort setting benchmarks for modelling gas–surface interactions using coherent control of rotational orientation states
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2020-06-01
description A fundamental and predictive understanding of molecule-surface interactions is challenging to obtain. Here the authors report an experimental technique allowing direct measurement of the scattering matrix, which reports on the coherent evolution of quantum states of a molecule scattering from a surface.
url https://doi.org/10.1038/s41467-020-16930-1
work_keys_str_mv AT yosefalkoby settingbenchmarksformodellinggassurfaceinteractionsusingcoherentcontrolofrotationalorientationstates
AT helenchadwick settingbenchmarksformodellinggassurfaceinteractionsusingcoherentcontrolofrotationalorientationstates
AT odedgodsi settingbenchmarksformodellinggassurfaceinteractionsusingcoherentcontrolofrotationalorientationstates
AT hamzalabiad settingbenchmarksformodellinggassurfaceinteractionsusingcoherentcontrolofrotationalorientationstates
AT matthewbergin settingbenchmarksformodellinggassurfaceinteractionsusingcoherentcontrolofrotationalorientationstates
AT joshuatcantin settingbenchmarksformodellinggassurfaceinteractionsusingcoherentcontrolofrotationalorientationstates
AT ilyalitvin settingbenchmarksformodellinggassurfaceinteractionsusingcoherentcontrolofrotationalorientationstates
AT tsofarmaniv settingbenchmarksformodellinggassurfaceinteractionsusingcoherentcontrolofrotationalorientationstates
AT gilalexandrowicz settingbenchmarksformodellinggassurfaceinteractionsusingcoherentcontrolofrotationalorientationstates
_version_ 1721370222133248000

Similar Items