48 citations as recorded by crossref.

1. Effect of volcanic aerosol on stratospheric NO2 and N2O5 from 2002–2014 as measured by Odin-OSIRIS and Envisat-MIPAS C. Adams et al.
2. Stratospheric aerosol layer perturbation caused by the 2019 Raikoke and Ulawun eruptions and their radiative forcing C. Kloss et al.
3. Improved representation of volcanic sulfur dioxide depletion in Lagrangian transport simulations: a case study with MPTRAC v2.4 M. Liu et al.
4. The role of sulfur dioxide in stratospheric aerosol formation evaluated by using in situ measurements in the tropical lower stratosphere A. Rollins et al.
5. Retrieval of volcanic SO2 from HIRS/2 using optimal estimation G. Miles et al.
6. Development, Production and Evaluation of Aerosol Climate Data Records from European Satellite Observations (Aerosol_cci) T. Popp et al.
7. Including ash in UKESM1 model simulations of the Raikoke volcanic eruption reveals improved agreement with observations A. Wells et al.
8. Improved tropospheric and stratospheric sulfur cycle in the aerosol–chemistry–climate model SOCOL-AERv2 A. Feinberg et al.
9. Evaluation of atmospheric sulfur dioxide simulated with the EMAC (version 2.55) Chemistry–Climate Model using satellite and ground-based observations I. Makroum et al.
10. New submodel for emissions from Explosive Volcanic ERuptions (EVER v1.1) within the Modular Earth Submodel System (MESSy, version 2.55.1) M. Kohl et al.
11. Particulate sulfur in the upper troposphere and lowermost stratosphere – sources and climate forcing B. Martinsson et al.
12. Recent advances and future avenues in examining the impacts of volcanic aerosols on climate T. Zhou et al.
13. Viscosity and Phase State of Wildfire Smoke Particles in the Stratosphere from Pyrocumulonimbus Events: An Initial Assessment M. Zeng et al.
14. Resolving the impact of stratosphere‐to‐troposphere transport on the sulfur cycle and surface ozone over the Tibetan Plateau using a cosmogenic 35S tracer M. Lin et al.
15. Sulfur dioxide from the atmospheric chemistry experiment (ACE) satellite W. Cameron et al.
16. Methodology to obtain highly resolved SO2 vertical profiles for representation of volcanic emissions in climate models O. Sandvik et al.
17. High-resolution mapping of SO2 using airborne observations from the GeoTASO instrument during the KORUS-AQ field study: PCA-based vertical column retrievals H. Chong et al.
18. Impacts of meteoric sulfur in the Earth's atmosphere J. Gómez Martín et al.
19. A 60 Year Record of Atmospheric Aerosol Depositions Preserved in a High‐Accumulation Dome Ice Core, Southeast Greenland Y. Iizuka et al.
20. Emergence of healing in the Antarctic ozone layer S. Solomon et al.
21. Photo-oxidation pathway as a potential CS₂ sink in the atmosphere Y. Li et al.
22. Impact of SO2 injection profiles on simulated volcanic forcing for the 2009 Sarychev eruptions – investigating the importance of using high-vertical-resolution methods when compiling SO2 data E. Axebrink et al.
23. Analysis of the global atmospheric background sulfur budget in a multi-model framework C. Brodowsky et al.
24. Quantifying the decay timescale of volcanic sulfur dioxide in the stratosphere P. Nicknish et al.
25. The 2019 Raikoke volcanic eruption – Part 1: Dispersion model simulations and satellite retrievals of volcanic sulfur dioxide J. de Leeuw et al.
26. Unexpectedly rapid aerosol formation in the Hunga Tonga plume E. Asher et al.
27. Easy Volcanic Aerosol (EVA v1.0): an idealized forcing generator for climate simulations M. Toohey et al.
28. Long-range transport of volcanic aerosol from the 2010 Merapi tropical eruption to Antarctica X. Wu et al.
29. Stratospheric aerosol radiative forcing simulated by the chemistry climate model EMAC using Aerosol CCI satellite data C. Brühl et al.
30. Contrail aging of a supersonic aircraft using a RANS/LES approach M. Muller et al.
31. Radiative Forcing of Climate: The Historical Evolution of the Radiative Forcing Concept, the Forcing Agents and their Quantification, and Applications V. Ramaswamy et al.
32. Stratospheric air intrusions promote global-scale new particle formation J. Zhang et al.
33. The Interactive Stratospheric Aerosol Model Intercomparison Project (ISA-MIP): motivation and experimental design C. Timmreck et al.
34. Level 1b error budget for MIPAS on ENVISAT A. Kleinert et al.
35. Photo-enhanced uptake of SO2 on Icelandic volcanic dusts J. Lasne et al.
36. Stratospheric aerosol data records for the climate change initiative: Development, validation and application to chemistry-climate modelling C. Bingen et al.
37. Volcanic stratospheric sulfur injections and aerosol optical depth from 500 BCE to 1900 CE M. Toohey & M. Sigl
38. Stratospheric aerosol-Observations, processes, and impact on climate S. Kremser et al.
39. IMK–IAA MIPAS retrieval version 8: CH4 and N2O N. Glatthor et al.
40. Modeling the aerosol chemical composition of the tropopause over the Tibetan Plateau during the Asian summer monsoon J. Ma et al.
41. MIPAS observations of volcanic sulfate aerosol and sulfur dioxide in the stratosphere A. Günther et al.
42. Secondary sulphate aerosols and cirrus clouds detection with SEVIRI during Nabro volcano eruption P. Sellitto et al.
43. Reconstructing volcanic radiative forcing since 1990, using a comprehensive emission inventory and spatially resolved sulfur injections from satellite data in a chemistry-climate model J. Schallock et al.
44. Development and validation of a new ozone dataset using Complete Data Fusion of MIPAS and IASI observations: a step towards understanding stratospheric ozone intrusions L. Guidetti et al.
45. Sixteen-year trends in atmospheric trace gases from orbit P. Bernath et al.
46. Modeling the Sulfate Aerosol Evolution After Recent Moderate Volcanic Activity, 2008–2012 C. Brodowsky et al.
47. Atmospheric Chemistry Experiment (ACE) satellite observations of aerosols and SO2 emissions from the 2024 Ruang volcanic eruption R. Dodangodage et al.
48. Sulfur dioxide sources in the stratosphere P. Bernath & M. Bhusal