FORCeS (@forces_h2020) 's Twitter Profile
FORCeS

@forces_h2020

FORCeS is an #H2020-funded project. It will provide more precise climate projections by reducing the uncertainty on how particles in the air affect climate.

ID: 1126056155581751297

calendar_today08-05-2019 09:28:03

223 Tweet

280 Followers

46 Following

Environmental Data Science (@envdatascience) 's Twitter Profile Photo

Physics-informed learning of aerosol #microphysics paulaharder.bsky.social, @DWatsonParris, Philip Stier, Strassel, Gauger & Janis Keuper 🇮🇱 → doi.org/10.1017/eds.20… #AerosolModeling #NeuralNetworks #Climate #PhysicsInformedML #AerosolPhysics #Aerosols #ClimateModels #ML #MachineLearning

Physics-informed learning of aerosol #microphysics

<a href="/PaulaHarder8/">paulaharder.bsky.social</a>, @DWatsonParris, <a href="/PhilipStier/">Philip Stier</a>, Strassel, Gauger &amp; <a href="/JanisKeuper/">Janis Keuper 🇮🇱</a>

→ doi.org/10.1017/eds.20…

#AerosolModeling #NeuralNetworks #Climate #PhysicsInformedML #AerosolPhysics #Aerosols #ClimateModels #ML #MachineLearning
CleanCloud_HE (@cleancloud_he) 's Twitter Profile Photo

Anna Possner is looking for a PostDoc in her group cloud physics in the climate system at Goethe-Universität, focusing on microphysical processes in the context of secondary ice multiplication in mixed-phase clouds in frame of the CleanCloud_HE project. uni-frankfurt.de/48794896/FB11_…

FORCeS (@forces_h2020) 's Twitter Profile Photo

🌲☁️Just published in Atmospheric Chemistry and Physics! FORCeS participants have observed that organic vapors that condense along with water vapor increase the number of aerosol particles that form cloud droplets. Curious about these results? Read the summary below. forces-project.eu/cloud-response…

FORCeS (@forces_h2020) 's Twitter Profile Photo

Curious about the contribution of fluorescent primary biological aerosol particles to low-level Arctic cloud residuals? 🤔This new study shows that bioaerosols act as cloud seeds and may influence the presence of ice within clouds, access it here: doi.org/10.5194/acp-24… Atmospheric Chemistry and Physics

Curious about the contribution of fluorescent primary biological aerosol particles to low-level Arctic cloud residuals? 🤔This new study shows that bioaerosols act as cloud seeds and may influence the presence of ice within clouds, access it here: doi.org/10.5194/acp-24…
<a href="/EGU_ACP/">Atmospheric Chemistry and Physics</a>
FORCeS (@forces_h2020) 's Twitter Profile Photo

FORCeS participants at Shmoopy just published a new study in MDPI. The results suggest that the suppression of precipitation is an important factor in how marine stratocumulus clouds respond to changes due to aerosols. ☁️ Read more👇 mdpi.com/2073-4433/15/5…

FORCeS (@forces_h2020) 's Twitter Profile Photo

🗓️FORCeS Nordic Seminar, 10 June! Join us on Monday when we will be concluding our understanding of aerosol-cloud interactions in the climate system, and what the new knowledge implies for policy- and decisionmakers, and the 2-degree target. More info 👉 bit.ly/3yLYagl

Karam Mansour (@karam_a_mansour) 's Twitter Profile Photo

Our new research article is published. 20 ML/DL (5 types) were assessed to predict Biogenic MSA and nss-Sulfate sealevel concentrations. The first high-resolution publicly available daily gridded dataset covering the North Atlantic. Jurgita Ovadnevaite Mace Head-CCAPS CNR ISAC FORCeS

FORCeS (@forces_h2020) 's Twitter Profile Photo

Accurately modeling mixed-phase clouds (MPCs) is key for climate sensitivity and Arctic amplification. This is the topic of investigation in this new study by FORCeS participants Paraskevi Georgakaki & Athanasios Nenes. Curious? Learn more👇 agupubs.onlinelibrary.wiley.com/doi/10.1029/20…

Nature Communications (@naturecomms) 's Twitter Profile Photo

New study by Lucile Ricard, Fabrizio Falasca, Jakob Runge, Athanasios Nenes presents a network-based constraint of #climate sensitivity that can be used to evaluate and weight #CMIP6 #ClimateModels. FORCeS nature.com/articles/s4146…

CSTACC_FORTH (@cstacc) 's Twitter Profile Photo

Aktypis et al. conducted dual chamber experiments using ambient air in a polluted and a pristine forested area, and found that the two environments had completely different potentials of forming additional SOA. FORCeS ATMO ACCESS Hellenic Foundation for Research & Innovation-HFRI doi.org/10.5194/acp-24…

Aktypis et al. conducted dual chamber experiments using ambient air in a polluted and a pristine forested area, and found that the two environments had completely different potentials of forming additional SOA.
<a href="/FORCeS_H2020/">FORCeS</a> <a href="/atmo_access/">ATMO ACCESS</a> <a href="/ELIDEK_HFRI/">Hellenic Foundation for Research & Innovation-HFRI</a> 

doi.org/10.5194/acp-24…