Supplemental material for the paper 'New Sensitivity Curves for Gravitational-Wave Experiments' (arXiv:2002.04615) by Kai Schmitz of the European Organization for Nuclear Research. The dataset likely contains strain noise power spectra, power-law-integrated sensitivities, and peak-integrated sensitivities presented in the paper. It serves as a reference for the sensitivity curves discussed in the gravitational-wave physics research.
Use Cases
- Compare experimental sensitivity curves based on the provided strain noise power spectra.
- Calculate power-law-integrated sensitivities for gravitational-wave detector design.
- Analyze peak-integrated sensitivities for signal detection thresholds.
- Benchmark theoretical models against published experimental sensitivity data.
Strengths
- Data is directly tied to a published paper (arXiv:2002.04615) with a named author and institution.
- The description specifies it contains three distinct types of sensitivity data: strain noise power spectra, power-law-integrated sensitivities, and peak-integrated sensitivities.
Limitations
- Row count, column definitions, and file formats are unknown, which limits suitability assessment.
- Last update date is unknown; freshness unverified.
- Description metadata is limited; actual data quality requires manual inspection after download.
Provenance
- Source
- Kai Schmitz, European Organization for Nuclear Research
- Collection Method
- Supplemental material for a published research paper.