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1. Gateways 2024

   Dumanlang, Maria; Comerford, Adriana (October 2024, Zenodo)

   These are the Gateways 2024 proceedings and all accepted submissions. 

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2. Seismic Tomography 2024

   https://doi.org/10.1785/0120230229  

   Fichtner, Andreas; Kennett, Brian_L N; Tsai, Victor C; Thurber, Clifford H; Rodgers, Arthur J; Tape, Carl; Rawlinson, Nicholas; Borcherdt, Roger D; Lebedev, Sergei; Priestley, Keith; et al (May 2024, Bulletin of the Seismological Society of America)

   ABSTRACT Seismic tomography is the most abundant source of information about the internal structure of the Earth at scales ranging from a few meters to thousands of kilometers. It constrains the properties of active volcanoes, earthquake fault zones, deep reservoirs and storage sites, glaciers and ice sheets, or the entire globe. It contributes to outstanding societal problems related to natural hazards, resource exploration, underground storage, and many more. The recent advances in seismic tomography are being translated to nondestructive testing, medical ultrasound, and helioseismology. Nearly 50 yr after its first successful applications, this article offers a snapshot of modern seismic tomography. Focused on major challenges and particularly promising research directions, it is intended to guide both Earth science professionals and early-career scientists. The individual contributions by the coauthors provide diverse perspectives on topics that may at first seem disconnected but are closely tied together by a few coherent threads: multiparameter inversion for properties related to dynamic processes, data quality, and geographic coverage, uncertainty quantification that is useful for geologic interpretation, new formulations of tomographic inverse problems that address concrete geologic questions more directly, and the presentation and quantitative comparison of tomographic models. It remains to be seen which of these problems will be considered solved, solved to some extent, or practically unsolvable over the next decade. 

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3. Uganda 2024 - HYDP

   https://doi.org/10.7283/ESMW-4Z67  

   Kwagalakwe, Asenath; Nyago, Joseph; Nakajigo, Joan; Stamps, D Sarah; Tugume, Fred (January 2024, EarthScope Consortium)

   GPS Dataset for campaign observations at HYDP 

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4. Wildfires in 2024

   https://doi.org/10.1038/s43017-025-00663-0  

   Kolden, Crystal A; Abatzoglou, John T; Jones, Matthew W; Jain, Piyush (April 2025, Nature Reviews Earth & Environment)
5. The 2024 magnonics roadmap

   https://doi.org/10.1088/1361-648X/ad399c  

   Flebus, Benedetta; Grundler, Dirk; Rana, Bivas; Otani, YoshiChika; Barsukov, Igor; Barman, Anjan; Gubbiotti, Gianluca; Landeros, Pedro; Akerman, Johan; Ebels, Ursula; et al (June 2024, Journal of Physics: Condensed Matter)

   Abstract Magnonicsis a research field that has gained an increasing interest in both the fundamental and applied sciences in recent years. This field aims to explore and functionalize collective spin excitations in magnetically ordered materials for modern information technologies, sensing applications and advanced computational schemes. Spin waves, also known as magnons, carry spin angular momenta that allow for the transmission, storage and processing of information without moving charges. In integrated circuits, magnons enable on-chip data processing at ultrahigh frequencies without the Joule heating, which currently limits clock frequencies in conventional data processors to a few GHz. Recent developments in the field indicate that functional magnonic building blocks for in-memory computation, neural networks and Ising machines are within reach. At the same time, the miniaturization of magnonic circuits advances continuously as the synergy of materials science, electrical engineering and nanotechnology allows for novel on-chip excitation and detection schemes. Such circuits can already enable magnon wavelengths of 50 nm at microwave frequencies in a 5G frequency band. Research into non-charge-based technologies is urgently needed in view of the rapid growth of machine learning and artificial intelligence applications, which consume substantial energy when implemented on conventional data processing units. In its first part, the 2024 Magnonics Roadmap provides an update on the recent developments and achievements in the field of nano-magnonics while defining its future avenues and challenges. In its second part, the Roadmap addresses the rapidly growing research endeavors on hybrid structures and magnonics-enabled quantum engineering. We anticipate that these directions will continue to attract researchers to the field and, in addition to showcasing intriguing science, will enable unprecedented functionalities that enhance the efficiency of alternative information technologies and computational schemes. 

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