21 to 30 of 30 Results
Feb 1, 2024 - Waves and Dynamics Dataverse
Ungermann, Jörn; Preusse, Peter; Nogai, Karlheinz, 2023, "CSS-2: GW analysis December 2018", https://doi.org/10.26165/JUELICH-DATA/0PDIY7, Jülich DATA, V1
S3D analyses of simulated temperature retrievals; Dec 2018 |
Feb 1, 2024 - Waves and Dynamics Dataverse
Ungermann, Jörn, 2023, "CAIRTEX-PHILEAS GLORIA data", https://doi.org/10.26165/JUELICH-DATA/4GVIER, Jülich DATA, V1
This dataset contains the near-real-time processed level1 data of the GLORIA instrument for two flights of the PHILEAS measurement campaign. In addition to the level 1 data, also the associated near-real-time level2 processed data is provided. Please note that only a subset of sp... |
Mar 16, 2022 - CLaMS Dataverse
Grooß, Jens-Uwe, 2022, "Replication Data for the studies on HCl discrepancy and on total reactive nitrogen redistribution", https://doi.org/10.26165/JUELICH-DATA/FBZRVO, Jülich DATA, V1
This data repository provides access to the model data of the study by Grooß et al. (2018) and Ziereis et al. (2022). Grooß et al. investigate the discrepancy between HCl observations in the early Antarctic winter stratosphere and simulations by 3 different models. Ziereis et al... |
Apr 20, 2021 - Waves and Dynamics Dataverse
Polichtchouk, Inna, 2021, "Replication Data for Greenland ECMWF runs 2016-03-10:Orographically-induced Spontaneous Imbalance within the Jet Causing a Large Scale Gravity Wave Event", https://doi.org/10.26165/JUELICH-DATA/OMK2I9, Jülich DATA, V1
The data repository provides the specialised ECMWF model runs used in Geldenhuys et al. submitted to ACP in 2021. This study identified a new gravity wave source mechanism through a jet-topography interaction. The dataset contains 2 model runs discussed in the publication (CTL-ru... |
Feb 18, 2021 - CLaMS Dataverse
Grooß, Jens-Uwe, 2021, "Replication Data Set for the study on 2020 ozone depletion", https://doi.org/10.26165/JUELICH-DATA/KET287, Jülich DATA, V1
This data repository provides access to the model data of the study by Grooß and Müller submitted to JGR (2020). In this study, the unprecedented Arctic stratospheric ozone loss in the winter 2019/2020 is examined using simulations of the Chemical Lagrangian Model of the Stratosp... |
Nov 20, 2020 - CLaMS Dataverse
Grooß, Jens-Uwe, 2020, "Replication Data for: Trajectory Data Set from the study on the 2017 BC wildfire detection", https://doi.org/10.26165/JUELICH-DATA/ATC1MZ, Jülich DATA, V1
These are trajectory data calculated for the study by Hooghiem et al. (Atmos Chem. Phys. , 2020). In this study, wildfire-influenced airmasses were observed and the trajectories were used to trace back the origin. |
Nov 20, 2020 -
Replication Data for: Trajectory Data Set from the study on the 2017 BC wildfire detection
Network Common Data Form - 33.3 KB - SHA-256: 4f7ce89a44e789735921a27cefb9bbda2a50d4c887cc896c09347b1eb1943859
Trajectory from observation on 4 Sep |
Nov 20, 2020 -
Replication Data for: Trajectory Data Set from the study on the 2017 BC wildfire detection
Network Common Data Form - 33.3 KB - SHA-256: 0adb333fbb3678849ad03416b5e36685e6633f70a4a54465d0354887827a495c
Trajectory from observation on 5 Sep |
Nov 20, 2020 -
Replication Data for: Trajectory Data Set from the study on the 2017 BC wildfire detection
Network Common Data Form - 99.7 KB - SHA-256: cf985170b0f1b74bba5738b67f28dc2de1bac372945e3ce1087bdc09e03c2b89
Trajectory from CALIOP Match on 3 Sep |
Nov 20, 2020 -
Replication Data for: Trajectory Data Set from the study on the 2017 BC wildfire detection
Network Common Data Form - 41.1 KB - SHA-256: 9f553a27409522044de9b88318a41a315b2da07c8015a7d2250de486353da98a
Trajectory from CALIOP Match on 20 Aug |
