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        <datestamp>2025-01-13T21:34:01Z</datestamp>
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              <identifier identifierType="DOI">10.48436/b27m5-0zz56</identifier>
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                  <creatorName nameType="Personal">Khudaiberdiev, Daniiar</creatorName>
                  <givenName>Daniiar</givenName>
                  <familyName>Khudaiberdiev</familyName>
                  <affiliation affiliationIdentifier="https://ror.org/04d836q62" affiliationIdentifierScheme="ROR">TU Wien</affiliation>
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              <titles>
                <title>Original data for "Polarization Resolved Electron Spin Resonance in Two-Dimensional Electron System"</title>
              </titles>
              <publisher>TU Wien</publisher>
              <publicationYear>2024</publicationYear>
              <dates>
                <date dateType="Issued">2024-12-20</date>
                <date dateType="Updated">2025-01-13</date>
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                <relatedIdentifier relatedIdentifierType="DOI" relationType="IsVersionOf">10.48436/3q3mx-m5856</relatedIdentifier>
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                <description descriptionType="Abstract">The record includes the measurements data for the paper:"Polarization Resolved Electron Spin Resonance in Two-Dimensional Electron System"

Key Highlights

1. Transport + transmission at f = 200.66 GHz (circular polarization).

2. Spectrum at B = 0 and 7T=&gt; w = 0.45mm and FP maxima are around 100*n GHz

3. Magnetodispersion of ESRAll the measurements in Faraday and Voigt geometries are collected and plotted.

4-6. Voigt measurements at f = 208.7GHz at different positions of the sampleVoigt 4: B||[100] phi = 0 Voigt 5: B||[110] phi = 45Voigt 6: B||around[210] phi = 22.5+ at 6 there is a global fitting!

7. The figure with double rotation!

8. Faraday measurement with circular polarization (old).

9. Figure with the spectrum and the Faraday geometry.

10-14. Old nonrelevant measurements for completeness.

Data Format

The record contains OPJU files created using OriginLab's Origin software (2022 edition).</description>
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