525 46 9309 4 26238 document 9309 Figure_data_archive.zip application/zip d275d6d94bf88f81515ed0be4791bb63 MD5 2714839 2018-07-11 14:20:13 https://researchdata.bath.ac.uk/525/1/Figure_data_archive.zip 525 1 1 application/zip other Zip file containing the datasets underpinning the six Figures for "Tuning the structure of the Josephson vortex lattice in Bi2Sr2CaCu2O8+δ single crystals with pancake vortices" in Scientific Reports. en public cc_by

Figure_data_archive.zip

data 9310 2 26244 document 9310 README.txt text/plain 6c26498cd6cc9f7bbe2652518004bd19 MD5 2124 2018-07-11 14:25:13 https://researchdata.bath.ac.uk/525/2/README.txt 525 2 2 text/plain other en public cc_by

README.txt

documentation 9312 1 26255 document 9312 indexcodes.txt text/plain e2981b396744107dae2389fcbaa797a9 MD5 205 2018-07-11 14:30:30 https://researchdata.bath.ac.uk/525/3/indexcodes.txt 525 3 3 text/plain other Generate index codes conversion from other to indexcodes en public

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http://eprints.org/relation/isVersionOf https://researchdata.bath.ac.uk/id/document/9310 http://eprints.org/relation/isVolatileVersionOf https://researchdata.bath.ac.uk/id/document/9310 http://eprints.org/relation/isIndexCodesVersionOf https://researchdata.bath.ac.uk/id/document/9310 archive 14 disk0/00/00/05/25 2018-07-19 14:26:33 2024-07-18 12:31:44 2018-07-19 14:26:33 data_collection show Bending Simon S.Bending@bath.ac.uk 0000-0002-4474-2554 University of Bath TRUE Curran Peter P.J.Curran@bath.ac.uk University of Bath FALSE Mohammed Hussen H.A.Mohammed@bath.ac.uk University of Bath FALSE Koshelev Alexei koshelev@anl.gov 0000-0002-1167-5906 Argonne National Laboratory FALSE DataCollector Curran Peter P.J.Curran@bath.ac.uk University of Bath DataCollector Mohammed Hussen H.A.Mohammed@bath.ac.uk University of Bath ProjectMember Koshelev Alexei koshelev@anl.gov 0000-0002-1167-5906 Argonne National Laboratory ProjectMember Tsuchiya Yuji 0000-0003-0480-851X Nagoya University ProjectMember Tamegai Tsuyoshi 0000-0002-1386-5762 University of Tokyo KF0010 KF0030 KF0040 dept_physics Datasets underpinning the 6 Figures for "Tuning the structure of the Josephson vortex lattice in Bi2Sr2CaCu2O8+δ single crystals with pancake vortices" in Scientific Reports. The primary data files are scanning Hall microscopy (SHM) images of pancake vortices catured at a temperature of 85K. Also included are graphs of vortex chain spacing and the estimated effective anisotropy extracted from the SHM images as a function of applied magnetic field. Simulation results for the vortex chain spacing as a function of applied magnetic field arising from the model described in the Supporting Materials are also included. 2018-07-19 University of Bath public RightsHolder University of Bath Engineering and Physical Sciences Research Council https://doi.org/10.13039/501100000266 EP/G036101/1 Fundamental Research and Applications in Nano-Electronics, Photonics, Engineering and Bio-Sciences Engineering and Physical Sciences Research Council https://doi.org/10.13039/501100000266 EP/J010626/1 Generation, Imaging and Control of Novel Coherent Electronic States in Artificial Ferromagnetic-Superconducting Hybrid Metamaterials and Devices The primary datasets are scanning Hall microscopy (SHM). These have been captured with a modified low-temperature scanning tunnelling microscope (STM) where the tunnelling tip has been replaced by a custom-fabricated semiconductor chip. The Hall probe is patterned in the two-dimensional electron gas of a GaAs/AlGaAs heterostructure, defined by the intersection of two 800 nm wide wires situated about 5 micrometers from the Au-coated corner of a deep mesa etch that acts as an integrated STM tip. The Hall probe is mounted at an angle of about 1 degree with respect to the sample plane, with the STM tip being the closest point to the sample surface. In operation the sample is first approached towards the sensor until tunnelling is established and then retracted about 100 nm for rapid ‘flying mode’ scanning with the active Hall probe about 200 nm above the sample and a spatial resolution of about 800 nm. In this way quantitative maps of the z-component of magnetic induction can be captured non-invasively. All images shown in this manuscript have been captured at T = 85K, when the full temperature-dependent scan range of our piezotube is 22 µm × 22 µm. The SHM data in the archive are raw as-captured data without any post-processing. SHM image datasets are formatted as the magnetic induction in Gauss measured at each point on a 128 × 128 array of pixel positions (corresponding to the spatial location of the Hall sensor in the plane parallel to the sample). At a measurement temperature of 85K this corresponds to a scan range of 22 µm × 22 µm. 2013 2016 en 1 10.15125/BATH-00525 https://doi.org/10.1038/s41598-018-28681-7 pub open