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1. Velocities of an Erupting Filament

   https://doi.org/10.3847/1538-4357/ac3a04  

   Shuo, W; Jenkins, M; Muglach, K; Pillet, V; Beck, C; Long, M; Choudhary, D; McAteer, J (February 2022, The Astrophysical Journal)

   Abstract Solar filaments exist as stable structures for extended periods of time before many of them form the core of a coronal mass ejection (CME). We examine the properties of an erupting filament on 2017 May 29–30 with high-resolution He i 10830 Å and H α spectra from the Dunn Solar Telescope, full-disk Dopplergrams of He i 10830 Å from the Chromospheric Telescope, and EUV and coronograph data from SDO and STEREO. Pre-eruption line-of-sight velocities from an inversion of He i with the HAZEL code exhibit coherent patches of 5 Mm extent that indicate counter-streaming and/or buoyant behavior. During the eruption, individual, aligned threads appear in the He i velocity maps. The distribution of velocities evolves from Gaussian to strongly asymmetric. The maximal optical depth of He i 10830 Å decreased from τ = 1.75 to 0.25, the temperature increased by 13 kK, and the average speed and width of the filament increased from 0 to 25 km s −1 and 10 to 20 Mm, respectively. All data sources agree that the filament rose with an exponential acceleration reaching 7.4 m s −2 that increased to a final velocity of 430 km s −1 at 22:24 UT; a CME was associated with this filament eruption. The properties during the eruption favor a kink/torus instability, which requires the existence of a flux rope. We conclude that full-disk chromospheric Dopplergrams can be used to trace the initial phase of on-disk filament eruptions in real time, which might potentially be useful for modeling the source of any subsequent CMEs. 

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2. Constant spacing in filament bundles

   https://doi.org/10.1088/1367-2630/ab1c2d  

   Atkinson, Daria W; Santangelo, Christian D; Grason, Gregory M (June 2019, New Journal of Physics)
3. Compressibility in Fused Filament Fabrication

   Kazmer, David O; Colon, Austin; Coogan, Timothy; Mubasshir, AA; Peterson, Amy (April 2020, Society of Plastics Engineers Annual Technical Conference)

   Fused filament fabrication (FFF) is one of the most accessible and flexible additive manufacturing processes. However, it is plagued by consistency issues related to material deposition. The role of compressibility is explored with an instrumented nozzle to relate the observed printing pressure to variations in deposited road widths. Variations in road width are analyzed relative to those predicted using a double domain Tait equation (PVT model) for high impact polystyrene (HIPS). Compressibility was found a critical effect, varying the road widths by up to 50% when accelerating and decelerating. The effect of the speed of transient stress propagation was also investigated but found insignificant. 

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4. Rotating Filament in Orion B: Do Cores Inherit Their Angular Momentum from Their Parent Filament?

   https://doi.org/10.3847/1538-4357/abd034  

   Hsieh, Cheng-Han; Arce, Héctor G.; Mardones, Diego; Kong, Shuo; Plunkett, Adele (February 2021, The Astrophysical Journal)

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5. Energetics of twisted elastic filament pairs

   https://doi.org/10.1103/PhysRevE.109.025003  

   Chopin, Julien; Biswas, Animesh; Kudrolli, Arshad (February 2024, Physical Review E)