Geophysical Monograph Series

Journal: Geophysical Monograph Series

Abbreviation

Geophys. monogr.

Publisher

American Geophysical Union

ISSN

0065-8448

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Publications 1 - 10 of 24

Correlation of Kamchatka lithosphere velocity anomalies with subduction processes
Nizkous, I.; Kissling, Eduard; Sanina, I.; et al. (2007)
Geophysical Monograph Series ~ Volcanism and subducton : the Kamchatka region
Seismic radiation from simple models of earthquakes
Madariaga, R.; Ampuero, Jean-Paul; Adda-Bedia, M. (2006)
Geophysical Monograph Series ~ Earthquakes : radiated energy and the physics of faulting
On Scaling of Fracture Energy and Stress Drop in Dynamic Rupture Models
Mai, P.M.; Somerville, P.; Pitarka, A.; et al. (2006)
Geophysical Monograph Series ~ Earthquakes : radiated energy and the physics of faulting
Properties of Dynamic Earthquake Ruptures With Heterogeneous Stress Drop
Ampuero, Jean-Paul; Ripperger, J.; Mai, P.M. (2006)
Geophysical Monograph Series ~ Earthquakes : radiated energy and the physics of faulting
Marine Boundary Layer Clouds
Lohmann, Ulrike (2009)
Geophysical Monograph Series ~ Surface ocean-lower atmosphere processes
Microanalytical Studies of Multiphase Reactions and Particle Aging
Alpert, Peter A.; Arroyo, Pablo Corral; Ammann, Markus (2024)
Geophysical Monograph Series ~ Microanalysis of Atmospheric Particles: Techniques and Applications
Research in aerosol chemistry and physics has significantly advanced our understanding of atmospheric processes, including air quality, radiation balance, cloud formation, and chemical transformations. Aerosol particles are composed of diverse compounds and exhibit various chemical and physical properties, such as reactivity, solubility, and morphology. Microanalytical methods, particularly microscopy and spectroscopy, have been instrumental in studying the chemical and photochemical reactions of single aerosol particles at the micro-and nanoscale. Despite their small scale, these studies have revealed critical atmospheric processes with global implications. This chapter highlights in situ microanalytical studies that track the chemical composition and morphology of aerosol particles in real time during reactions. We emphasize X-ray spectromicroscopy for its ability to map the evolving chemical morphology within single particles. Additionally, we discuss the need for advanced data processing techniques, including artificial neural networks and modeling, as microanalytical technology progresses.
Dimethylsulfide and Climate
Vogt, M.; Liss, P. (2009)
Geophysical Monograph Series ~ Surface ocean-lower atmosphere processes
Atmospheric Chemistry in Lagrangian Models-Overview
Brunner, Dominik (2012)
Geophysical Monograph Series ~ Lagrangian modeling of the atmosphere
Global-Scale Tropospheric Lagrangian Particle Models With Linear Chemistry
Henne, Stephan; Schnadt Poberaj, C.; Reimann, S.; et al. (2012)
Geophysical Monograph Series ~ Lagrangian modeling of the atmosphere
Long-term solar variablity and climate change based on radionuclide data from ice cores
Muscheler, Raimund; Beer, Jürg; Kubik, Peter W. (2004)
Geophysical Monograph Series ~ Solar Variability and its Effects on Climate

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