11 to 20 of 29 Results
Feb 6, 2023
Shapiro, Anna, 2023, "Metal_rich_stars_planets_habitability", https://doi.org/10.17617/3.WGVDYV, Edmond, V1
|
Feb 2, 2023
Birch, Aaron, 2023, "Convection Spectra from the Thesis of B. Proxauf", https://doi.org/10.17617/3.DFU3SQ, Edmond, V1
This repository contains the curves to reproduce Figure 3.3 from B. Proxauf 2021 Thesis "Observations of large-scale solar flows" |
Nov 27, 2022
Gizon, Laurent, 2022, "Swaying oscillations in RBC - Kupka et al.", https://doi.org/10.17617/3.BHN9A4, Edmond, V1
Pr=0.01 |
Nov 11, 2022
Chitta, Lakshmi Pradeep Chitta; Seaton, Daniel; Downs, Cooper; DeForest, Craig; Higginson, Aleida, 2022, "Supporting Materials", https://doi.org/10.17617/3.86, Edmond, V1
This collection contains supporting materials for the article titled "Direct observations of a complex coronal web driving highly structured slow solar wind". The folder contains a zip file with LASCO SUVI merged files (in FITS format). These data have been extensively processed... |
Aug 4, 2022
Sanchez, Sabrina, 2022, "MPG Geomagnetic field forecast from 2020 to 2120", https://doi.org/10.17617/3.MZGFPM, Edmond, V1
Geomagnetic field forecast from 2020 to 2120, based on the assimilation of COV-OBS.x1 (Gillet et al, 2015) and Kalmag (Baerenzung et al, 2020) by an ensemble of 3D dynamo simulations. The forecast was issued in the context of the IGRF-13 for geomagnetic field forecast between 202... |
Mar 23, 2022
Fournier, Damien, 2022, "Viscous inertial modes on a differentially rotating sphere", https://doi.org/10.17617/3.OM51HE, Edmond, V1
This dataset provides additional information related to the publication "Viscous inertial modes on a differentially rotating sphere: comparison with solar observations" submitted to A&A. |
Aug 20, 2021
Gottschling, Nils, 2021, "Evolution of solar surface inflows around emerging active regions", https://doi.org/10.17617/3.6h, Edmond, V1
This catalogue contains figures of the sunspot quality number of 182~emerging active regions between -2 and +7 days relative to their time of emergence, as defined and discussed in Gottschling et al. 2021: |
Jul 7, 2021
Gizon, n/a, 2021, "Solar inertial modes -- A&A Letter", https://doi.org/10.17617/3.NYKPBA, Edmond, V1
|
Apr 23, 2021
Bickel, Valentin, 2021, "Impacts drive lunar rockfalls over billions of years", https://doi.org/10.17617/3.OG927P, Edmond, V1
This catalog contains all lunar rockfalls mapped in LRO NAC images using a Convolutional Neural Network, as presented and discussed in Bickel et al. (2020): https://www.nature.com/articles/s41467-020-16653-3, capped at 80°N and 80°S and 60°N and 60°S (only images with solar incid... |
Apr 23, 2021
Bickel, Valentin, 2021, "A Catalog of 687 Lunar Rockfalls", https://doi.org/10.17617/3.60, Edmond, V1
This catalog contains detailed information about 687 individual lunar rockfalls mapped in LRO NAC images. The catalog contains information about (sequentially): ID (id), LAT (latitude), LON (longitude), MAP PROJECTION (map projection type), TARGET TYPE (geomorphic type), B_DEPO (... |