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                  <creatorName nameType="Personal">Di Cataldo, Simone</creatorName>
                  <givenName>Simone</givenName>
                  <familyName>Di Cataldo</familyName>
                  <nameIdentifier nameIdentifierScheme="ORCID">0000-0002-8902-0125</nameIdentifier>
                  <affiliation affiliationIdentifier="https://ror.org/04d836q62" affiliationIdentifierScheme="ROR">TU Wien</affiliation>
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                <creator>
                  <creatorName nameType="Personal">Held, Karsten</creatorName>
                  <givenName>Karsten</givenName>
                  <familyName>Held</familyName>
                  <nameIdentifier nameIdentifierScheme="ORCID">0000-0001-5984-8549</nameIdentifier>
                  <affiliation>TU Wien</affiliation>
                </creator>
                <creator>
                  <creatorName nameType="Personal">Si, Liang</creatorName>
                  <givenName>Liang</givenName>
                  <familyName>Si</familyName>
                  <nameIdentifier nameIdentifierScheme="ORCID">0000-0003-4709-6882</nameIdentifier>
                  <affiliation>TU Wien</affiliation>
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                <creator>
                  <creatorName nameType="Personal">Worm, Paul</creatorName>
                  <givenName>Paul</givenName>
                  <familyName>Worm</familyName>
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                  <affiliation affiliationIdentifier="https://ror.org/04d836q62" affiliationIdentifierScheme="ROR">TU Wien</affiliation>
                </creator>
                <creator>
                  <creatorName nameType="Personal">Tomczak, Jan</creatorName>
                  <givenName>Jan</givenName>
                  <familyName>Tomczak</familyName>
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                  <affiliation affiliationIdentifier="https://ror.org/0220mzb33" affiliationIdentifierScheme="ROR">King's College London</affiliation>
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              <titles>
                <title>Supplementary data for: "Unconventional superconductivity without doping: infinite-layer nickelates under pressure"</title>
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              <publisher>TU Wien</publisher>
              <publicationYear>2023</publicationYear>
              <subjects>
                <subject subjectScheme="FOS">Physical sciences</subject>
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              <dates>
                <date dateType="Issued">2023-11-10</date>
                <date dateType="Updated">2024-06-25</date>
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              <language>eng</language>
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                <relatedIdentifier relatedIdentifierType="DOI" relationType="IsVersionOf">10.48436/6rg28-a8w14</relatedIdentifier>
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              <version>1.0.0</version>
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                <description descriptionType="Abstract">Supplementary data for "Unconventional superconductivity without doping: infinite-layer nickelates under pressure"
Context and methodology

This repository contains supplementary data from the associated research work. It serves the purpose of aiding interested and informed readers to reproduce the results of the associated paper and verify their validity.
The research area in which this dataset is created is that of condensed matter, strongly correlated electron systems, superconductivity
This dataset was created manually by collecting and ordering the relevant data. The README file was written by Simone Di Cataldo
Technical details

The dataset contains a README file which explains in detail the content of the dataset itself. The general structure is the following: the dataset is divided into subfolders for the general topic (DFT calculations, DMFT calculations for 1 band, DMFT calculations for 10 bands). Each folder then contains further subfolders related to physical quantities (i.e. different pressures, different dopings, different temperatures). Consult the README file for detailed explanation of the naming conventions.
The data contained is of mixed type. Most of it are input and output files of softwares that can be read directly with text editors. In addition, hdf5 files from DMFT calculations containing Green's functions, self-energies and two-particle vertexes require dedicated software, e.g. python code with h5py.</description>
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                  <funderName>FWF Austrian Science Fund</funderName>
                  <funderIdentifier funderIdentifierType="ROR">013tf3c58</funderIdentifier>
                  <awardNumber>I5398</awardNumber>
                  <awardTitle>Electronic structure and superconductivity in nickelates</awardTitle>
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                <fundingReference>
                  <funderName>FWF Austrian Science Fund</funderName>
                  <funderIdentifier funderIdentifierType="ROR">013tf3c58</funderIdentifier>
                  <awardNumber>I5868</awardNumber>
                  <awardTitle>Quantum phase transitions and collective modes</awardTitle>
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                <fundingReference>
                  <funderName>FWF Austrian Science Fund</funderName>
                  <funderIdentifier funderIdentifierType="ROR">013tf3c58</funderIdentifier>
                  <awardNumber>P36213</awardNumber>
                  <awardTitle>Vertex corrections to the conductivity</awardTitle>
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