208 22 190 3 1693 document 190 ReadMe.txt text/plain 7a950a449227f3e99f505fc6cf79f353 MD5 1592 2015-08-06 12:59:24 https://researchdata.gla.ac.uk/208/1/ReadMe.txt 208 1 1 text/plain Text en public cc_by_sa_4
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readme 191 2 1696 document 191 O'Shea et al 2014 data files.zip application/x-zip 5297ca1a9b8b9b5238862d0dc3bc21c7 MD5 8471973 2015-08-06 13:00:32 https://researchdata.gla.ac.uk/208/2/O%27Shea%20et%20al%202014%20data%20files.zip 208 2 2 application/x-zip Mixed en public cc_by_sa_4
O'Shea et al 2014 data files.zip
data 192 1 1702 document 192 indexcodes.txt text/plain 2fd1116035a377bc5e8a9803135926da MD5 891 2015-08-06 13:06:23 https://researchdata.gla.ac.uk/208/3/indexcodes.txt 208 3 3 text/plain other Generate index codes conversion from Text to indexcodes en public
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http://eprints.org/relation/isVersionOf https://researchdata.gla.ac.uk/id/document/190 http://eprints.org/relation/isVolatileVersionOf https://researchdata.gla.ac.uk/id/document/190 http://eprints.org/relation/isIndexCodesVersionOf https://researchdata.gla.ac.uk/id/document/190 archive 6975 disk0/00/00/02/08 2015-08-06 13:01:18 2025-06-10 11:19:59 2015-08-06 13:01:18 data_collection show Herpers A. O'Shea K. J. 8276 MacLaren Donald 3817 0000-0003-0641-686X Noyong M. Rosgen B. Simon U. Dittmann R. glaresearchdata:2015-08-06-208 Competing strain relaxation mechanisms in epitaxially grown Pr0.48Ca0.52MnO3 on SrTiO3 pub 30100000 We investigated the impact of strain relaxation on the current transport of Pr0.48Ca0.52MnO3(PCMO) thin films grown epitaxially on SrTiO3 single crystals by pulsed laser deposition. The incorporation of misfit dislocations and the formation of cracks are identified as competing mechanisms for the relaxation of the biaxial tensile strain. Crack formation leads to a higher crystal quality within the domains but the cracks disable the macroscopic charge transportthrough the PCMO layer. Progressive strain relaxation by the incorporation of misfit dislocations,on the other hand, results in a significant decrease of the activation energy for polaron hoppingwith increasing film thickness. 2015-08-06 submitted University of Glasgow 10.5525/gla.researchdata.208 Mixed University of Glasgow 53072 1 Integrating advanced nanomaterials into transformative technologies Donald Maclaren Engineering & Physical Sciences Research Council (EPSRC) EP/I00419X/1 P&A - PHYSICS & ASTRONOMY FALSE English http://dx.doi.org/10.1063/1.4900817 article 2035-06-30 R Check date of last access and update retention schedule accordingly. 2025-06-10 MSM Previous retention date was 2025-08-06. 3817 FALSE FALSE Competing strain relaxation mechanisms in epitaxially grown Pr0.48Ca0.52MnO3 on SrTiO3 http://eprints.gla.ac.uk/id/eprint/98979