{"id":1150,"identifier":"DVUA/FJ9M9G","persistentUrl":"https://doi.org/10.48788/DVUA/FJ9M9G","protocol":"doi","authority":"10.48788","publisher":"DataverseUA","publicationDate":"2026-05-12","storageIdentifier":"local://10.48788/DVUA/FJ9M9G","datasetVersion":{"id":104,"datasetId":1150,"datasetPersistentId":"doi:10.48788/DVUA/FJ9M9G","storageIdentifier":"local://10.48788/DVUA/FJ9M9G","versionNumber":1,"versionMinorNumber":0,"versionState":"RELEASED","lastUpdateTime":"2026-05-12T11:57:20Z","releaseTime":"2026-05-12T11:57:20Z","createTime":"2026-05-12T11:05:58Z","publicationDate":"2026-05-12","citationDate":"2026-05-12","license":{"name":"CC0 1.0","uri":"http://creativecommons.org/publicdomain/zero/1.0","iconUri":"https://licensebuttons.net/p/zero/1.0/88x31.png"},"fileAccessRequest":true,"metadataBlocks":{"citation":{"displayName":"Citation Metadata","name":"citation","fields":[{"typeName":"title","multiple":false,"typeClass":"primitive","value":"Atomic force microscopy images of [Fe/I]n discontinious multilayers (I = SiO2, MgO, HfO2)"},{"typeName":"author","multiple":true,"typeClass":"compound","value":[{"authorName":{"typeName":"authorName","multiple":false,"typeClass":"primitive","value":"Pazukha, Iryna"},"authorAffiliation":{"typeName":"authorAffiliation","multiple":false,"typeClass":"primitive","value":"Sumy State University"},"authorIdentifierScheme":{"typeName":"authorIdentifierScheme","multiple":false,"typeClass":"controlledVocabulary","value":"ORCID"},"authorIdentifier":{"typeName":"authorIdentifier","multiple":false,"typeClass":"primitive","value":"0000-0001-9410-3024"}},{"authorName":{"typeName":"authorName","multiple":false,"typeClass":"primitive","value":"Shkurdoda, Yurii"},"authorAffiliation":{"typeName":"authorAffiliation","multiple":false,"typeClass":"primitive","value":"Sumy State Universuty"},"authorIdentifierScheme":{"typeName":"authorIdentifierScheme","multiple":false,"typeClass":"controlledVocabulary","value":"ORCID"},"authorIdentifier":{"typeName":"authorIdentifier","multiple":false,"typeClass":"primitive","value":"0000-0002-8180-4574"}},{"authorName":{"typeName":"authorName","multiple":false,"typeClass":"primitive","value":"Pylypenko, Oleksandr"},"authorAffiliation":{"typeName":"authorAffiliation","multiple":false,"typeClass":"primitive","value":"Sumy State University"},"authorIdentifierScheme":{"typeName":"authorIdentifierScheme","multiple":false,"typeClass":"controlledVocabulary","value":"ORCID"},"authorIdentifier":{"typeName":"authorIdentifier","multiple":false,"typeClass":"primitive","value":"0000-0003-0289-1292"}},{"authorName":{"typeName":"authorName","multiple":false,"typeClass":"primitive","value":"Vorobiov, Serhii"},"authorAffiliation":{"typeName":"authorAffiliation","multiple":false,"typeClass":"primitive","value":"P.J. Šafárik University in Košice"},"authorIdentifierScheme":{"typeName":"authorIdentifierScheme","multiple":false,"typeClass":"controlledVocabulary","value":"ORCID"},"authorIdentifier":{"typeName":"authorIdentifier","multiple":false,"typeClass":"primitive","value":"0000-0002-5884-3292"}}]},{"typeName":"datasetContact","multiple":true,"typeClass":"compound","value":[{"datasetContactName":{"typeName":"datasetContactName","multiple":false,"typeClass":"primitive","value":"Pazukha, Iryna"},"datasetContactAffiliation":{"typeName":"datasetContactAffiliation","multiple":false,"typeClass":"primitive","value":"Sumy State University"},"datasetContactEmail":{"typeName":"datasetContactEmail","multiple":false,"typeClass":"primitive","value":"i.pazuha@aph.sumdu.edu.ua"}}]},{"typeName":"dsDescription","multiple":true,"typeClass":"compound","value":[{"dsDescriptionValue":{"typeName":"dsDescriptionValue","multiple":false,"typeClass":"primitive","value":"The atomic force microscopy was used to analyze the effect of the insulator matrix on the morphology of iron-insulator discontinuous multilayers [Fe/I]n/S  (I = SiO2, HfO2, and MgO)"},"dsDescriptionDate":{"typeName":"dsDescriptionDate","multiple":false,"typeClass":"primitive","value":"2026-05-12"}}]},{"typeName":"subject","multiple":true,"typeClass":"controlledVocabulary","value":["Physics"]},{"typeName":"keyword","multiple":true,"typeClass":"compound","value":[{"keywordValue":{"typeName":"keywordValue","multiple":false,"typeClass":"primitive","value":"Atomic force microscopy"}},{"keywordValue":{"typeName":"keywordValue","multiple":false,"typeClass":"primitive","value":"discontinuous multilayers"}}]},{"typeName":"notesText","multiple":false,"typeClass":"primitive","value":"The atomic force microscopy (Bruker, Dimension Icon AFM) was used for the examination of the surface morphology and roughness of the discontinuous multilayer systems [Fe(dFe)/I(3)]n/S, where I = SiO2, HfO2, and MgO, n = 10 is the number of bilayer repeaters. The discontinuous multilayers were prepared by sequential magnetron sputtering at room temperature on a sapphire substrate. The base pressure in the vacuum chamber was 7.10-8 Torr. During sputtering, the chamber was filled with Ar at a constant pressure of 3 mTorr. Radiofrequency (RF) magnetron sputtering at 100 W and a deposition rate of 1 nm/min for the insulator has been used. DC magnetron sputtering at 100 W and a deposition rate of 5 nm/min for the ferromagnet has been used."},{"typeName":"grantNumber","multiple":true,"typeClass":"compound","value":[{"grantNumberAgency":{"typeName":"grantNumberAgency","multiple":false,"typeClass":"primitive","value":"Ministry of Education and Science of Ukraine"},"grantNumberValue":{"typeName":"grantNumberValue","multiple":false,"typeClass":"primitive","value":"0224U033036"}},{"grantNumberAgency":{"typeName":"grantNumberAgency","multiple":false,"typeClass":"primitive","value":"NATO Program \"Science for Peace and Security\""},"grantNumberValue":{"typeName":"grantNumberValue","multiple":false,"typeClass":"primitive","value":"G6131"}}]},{"typeName":"depositor","multiple":false,"typeClass":"primitive","value":"Pazukha, Iryna"},{"typeName":"dateOfDeposit","multiple":false,"typeClass":"primitive","value":"2026-05-12"},{"typeName":"kindOfData","multiple":true,"typeClass":"primitive","value":["AFM images"]},{"typeName":"software","multiple":true,"typeClass":"compound","value":[{"softwareName":{"typeName":"softwareName","multiple":false,"typeClass":"primitive","value":"-"}}]}]},"journal":{"displayName":"Journal Metadata","name":"journal","fields":[]}},"files":[{"description":"The AFM image of the discontinuous multilayer systems [Fe(2)/HfO2(3)]10/S, which was prepared by sequential magnetron sputtering on the sapphire substrate at room temperature.","label":"[Fe(2)HfO2(3)]10_RT.jpg","restricted":false,"version":1,"datasetVersionId":104,"dataFile":{"id":1154,"persistentId":"","filename":"[Fe(2)HfO2(3)]10_RT.jpg","contentType":"image/jpeg","friendlyType":"JPEG Image","filesize":101325,"description":"The AFM image of the discontinuous multilayer systems [Fe(2)/HfO2(3)]10/S, which was prepared by sequential magnetron sputtering on the sapphire substrate at room temperature.","storageIdentifier":"local://19e1bd27422-1866d98eceac","rootDataFileId":-1,"md5":"ef0eb460a4091ba6b7fa432689caf6ad","checksum":{"type":"MD5","value":"ef0eb460a4091ba6b7fa432689caf6ad"},"tabularData":false,"creationDate":"2026-05-12","publicationDate":"2026-05-12","fileAccessRequest":true}},{"description":"The AFM image of the discontinuous multilayer systems [Fe(2)/SiO2(3)]10/S, which was prepared by sequential magnetron sputtering on the sapphire substrate at room temperature.","label":"[Fe(2)SiO2(3)]10_RT.jpg","restricted":false,"version":1,"datasetVersionId":104,"dataFile":{"id":1151,"persistentId":"","filename":"[Fe(2)SiO2(3)]10_RT.jpg","contentType":"image/jpeg","friendlyType":"JPEG Image","filesize":146783,"description":"The AFM image of the discontinuous multilayer systems [Fe(2)/SiO2(3)]10/S, which was prepared by sequential magnetron sputtering on the sapphire substrate at room temperature.","storageIdentifier":"local://19e1bd51804-8fe706fc7e37","rootDataFileId":-1,"md5":"13e746067f2611d3021e746bbc4f172f","checksum":{"type":"MD5","value":"13e746067f2611d3021e746bbc4f172f"},"tabularData":false,"creationDate":"2026-05-12","publicationDate":"2026-05-12","fileAccessRequest":true}},{"description":"The AFM image of the discontinuous multilayer systems [Fe(7)/HfO2(3)]10/S, which was prepared by sequential magnetron sputtering on the sapphire substrate at room temperature.","label":"[Fe(7)HfO2(3)]10_RT.jpg","restricted":false,"version":2,"datasetVersionId":104,"dataFile":{"id":1157,"persistentId":"","filename":"[Fe(7)HfO2(3)]10_RT.jpg","contentType":"image/jpeg","friendlyType":"JPEG Image","filesize":160439,"description":"The AFM image of the discontinuous multilayer systems [Fe(7)/HfO2(3)]10/S, which was prepared by sequential magnetron sputtering on the sapphire substrate at room temperature.","storageIdentifier":"local://19e1bfaf74e-c7f372cb3f72","rootDataFileId":-1,"md5":"b73b93977a88ef1a1cf63214d7d6f70b","checksum":{"type":"MD5","value":"b73b93977a88ef1a1cf63214d7d6f70b"},"tabularData":false,"creationDate":"2026-05-12","publicationDate":"2026-05-12","fileAccessRequest":true}},{"description":"The AFM image of the discontinuous multilayer systems [Fe(7)/MgO(3)]10/S, which was prepared by sequential magnetron sputtering on the sapphire substrate at room temperature.","label":"[Fe(7)MgO(3)}10_RT.jpg","restricted":false,"version":1,"datasetVersionId":104,"dataFile":{"id":1155,"persistentId":"","filename":"[Fe(7)MgO(3)}10_RT.jpg","contentType":"image/jpeg","friendlyType":"JPEG Image","filesize":131964,"description":"The AFM image of the discontinuous multilayer systems [Fe(7)/MgO(3)]10/S, which was prepared by sequential magnetron sputtering on the sapphire substrate at room temperature.","storageIdentifier":"local://19e1bd5a755-87334523b626","rootDataFileId":-1,"md5":"fac9f45b4cf308610d9604ea577b67a2","checksum":{"type":"MD5","value":"fac9f45b4cf308610d9604ea577b67a2"},"tabularData":false,"creationDate":"2026-05-12","publicationDate":"2026-05-12","fileAccessRequest":true}},{"description":"The AFM image of the discontinuous multilayer systems [Fe(7)/SiO2(3)]10/S, which was prepared by sequential magnetron sputtering on the sapphire substrate at room temperature.","label":"[Fe(7)SiO2(3)]10_RT.jpg","restricted":false,"version":1,"datasetVersionId":104,"dataFile":{"id":1152,"persistentId":"","filename":"[Fe(7)SiO2(3)]10_RT.jpg","contentType":"image/jpeg","friendlyType":"JPEG Image","filesize":119329,"description":"The AFM image of the discontinuous multilayer systems [Fe(7)/SiO2(3)]10/S, which was prepared by sequential magnetron sputtering on the sapphire substrate at room temperature.","storageIdentifier":"local://19e1bd6fd0f-e3740f00ff7b","rootDataFileId":-1,"md5":"cd4f0026e8d2773952c354855defef5b","checksum":{"type":"MD5","value":"cd4f0026e8d2773952c354855defef5b"},"tabularData":false,"creationDate":"2026-05-12","publicationDate":"2026-05-12","fileAccessRequest":true}},{"description":"The AFM image of the discontinuous multilayer systems [Fe(2)/MgO(3)]10/S, which was prepared by sequential magnetron sputtering on the sapphire substrate at room temperature.","label":"[{Fe(2)MgO(3)]10_RT.jpg","restricted":false,"version":1,"datasetVersionId":104,"dataFile":{"id":1153,"persistentId":"","filename":"[{Fe(2)MgO(3)]10_RT.jpg","contentType":"image/jpeg","friendlyType":"JPEG Image","filesize":101810,"description":"The AFM image of the discontinuous multilayer systems [Fe(2)/MgO(3)]10/S, which was prepared by sequential magnetron sputtering on the sapphire substrate at room temperature.","storageIdentifier":"local://19e1bd49fdc-a4bf529ac56c","rootDataFileId":-1,"md5":"7688afadf618cb2574a8bacc23786b60","checksum":{"type":"MD5","value":"7688afadf618cb2574a8bacc23786b60"},"tabularData":false,"creationDate":"2026-05-12","publicationDate":"2026-05-12","fileAccessRequest":true}}],"citation":"Pazukha, Iryna; Shkurdoda, Yurii; Pylypenko, Oleksandr; Vorobiov, Serhii, 2026, \"Atomic force microscopy images of [Fe/I]n discontinious multilayers (I = SiO2, MgO, HfO2)\", https://doi.org/10.48788/DVUA/FJ9M9G, DataverseUA, V1"}}