{"help":"Return the metadata of a dataset (package) and its resources. :param id: the id or name of the dataset :type id: string","success":true,"result":[{"id":"6df02003-bed9-4395-a3c6-26bc028828da","name":"determination-no-densities-surface-dielectric-barrier-discharge-using-optical-emission","title":"Determination of NO densities in a surface dielectric barrier discharge using optical emission spectroscopy","author_email":"kogelheide@aept.rub.de","maintainer":"Research Data Repository","maintainer_email":"achim.vonkeudell@rub.de","license_title":"https:\/\/creativecommons.org\/licenses\/by\/4.0\/","notes":"\u003Cp\u003EA new computationally assisted diagnostic to measure NO densities in atmospheric-pressure microplasmas by Optical Emission Spectroscopy (OES) is developed and validated against absorption spectroscopy in a volume Dielectric Barrier Discharge (DBD). The OES method is then applied to a twin surface DBD operated in N2 to measure the NO density as a function of the O2 admixture (0:1%\u20131%). The underlying rate equation model reveals that NO(A2\u03a3+) is primarily excited by reactions of the ground state NO(X2\u03a0) with metastables N2(A3\u03a3+u).\u003C\/p\u003E\n","url":"https:\/\/rdpcidat.rub.de\/dataset\/determination-no-densities-surface-dielectric-barrier-discharge-using-optical-emission","state":"Active","log_message":"Edited by kd.","private":true,"revision_timestamp":"Sun, 03\/21\/2021 - 19:46","metadata_created":"Wed, 02\/03\/2021 - 14:48","metadata_modified":"Sun, 03\/21\/2021 - 19:46","creator_user_id":"734724ba-213d-4bf5-b2c9-6f56e5b8a1a9","type":"Dataset","resources":[{"id":"38229c11-0e96-49b2-91d0-3887d3676c98","revision_id":"","url":"https:\/\/rdpcidat.rub.de\/sites\/default\/files\/Paper_NO_OAS.zip","description":"\u003Cp\u003EOriginPro is needed to access the data.\u003C\/p\u003E\n","format":"zip","state":"Active","revision_timestamp":"Mon, 02\/15\/2021 - 16:40","name":"All figures","mimetype":"application\/zip","size":"37.56 MB","created":"Wed, 02\/03\/2021 - 14:49","resource_group_id":"60dfa3fb-4113-4271-8531-8587fa07dcbe","last_modified":"Date changed  Mon, 02\/15\/2021 - 16:40"}],"tags":[{"id":"91596d33-0a2b-4d56-a3e9-18172c43e2de","vocabulary_id":"2","name":"absorption spectroscopy"},{"id":"7c3d81bd-2eb6-48ca-bf94-8700c7465b45","vocabulary_id":"2","name":"electron density"},{"id":"097ab695-fe9a-4a01-83cc-fed3336dc0f8","vocabulary_id":"2","name":"optical emission spectroscopy"},{"id":"9b84c4fb-e973-4d6f-99bd-5e5f351db826","vocabulary_id":"2","name":"oxides"},{"id":"fd52c99c-8282-4185-a506-878a0c52dbef","vocabulary_id":"2","name":"electron impact ionization"}],"groups":[{"description":"\u003Cp\u003EThe group \u0022Allgemeine Elektrotechnik und Plasmatechnik\u0022 at the faculty for engineering and information science.\u003C\/p\u003E\n","id":"60dfa3fb-4113-4271-8531-8587fa07dcbe","image_display_url":"https:\/\/rdpcidat.rub.de\/sites\/default\/files\/AEPT2.png","title":"AEPT","name":"group\/aept"}]}]}