Research Highlights

R. Casini and D. M. Harrington review the fundamental mechanisms that are responsible for instrumental artifacts that can affect the accuracy of optical designs conceived for high-sensitivity spectroscopy and polarimetry. Modeling examples are used to highlight the salient characteristics of polarization fringes, as well as to assess how approximate treatments such as this compare to exact but more computational expensive formulations of the problem such as Berreman's calculus.

D. Koshin, N. M. Pedatella, A. K. Smith, and H.-L. Liu analyze the role of gravity waves contributing to winter polar region circulation using output from a high-resolution simulation. In the winter middle atmosphere, gravity waves with eastward phase speeds are generated around the polar vortex and propagate into the lower thermosphere. 

C.T. Hsu, N.M. Pedatella investigate the sensitivity of the thermosphere and ionosphere to variations in solar spectral irradiance (SDO and SORCE mission data). This work highlights the importance of accounting for uncertainty in external solar energy input in space weather models and demonstrates the value of data-informed ensemble simulations in improving the accuracy and reliability of thermosphere and ionosphere forecasts.

Matthias Rempel, et. al. introduce a novel, Physics-Informed Machine Learning method to infer the three-dimensional (3D) solar atmospheric structures from observations to advance the understanding of the magnetic fields and electric currents that drive solar activity.

Yuhong Fan uses magnetohydrodynamic (MHD) simulations to find the formation of a prominence-cavity system that qualitatively reproduces several observed features including the cavity, the prominence “horns”, and the central “cavity” enclosed in the “horns” above the prominence.

D. Koshin, N. M. Pedatella, A. K. Smith, and H.-L. Liu investigate diurnal variability in gravity wave activity, which is an indication of the interaction between gravity waves and tides using satellite observations

Dong Lin, Michael Hartinger, William Lotko, Wenbin Wang, Xueling Shi, Bharat Kunduri, Viacheslav Merkin, Kareem Sorathia, Kevin Pham, and Michael Wiltberger use a first-principles computational model that can resolve the fundamental physics related to the low frequency plasma waves, to carry out idealized numerical experiments to investigate the electromagnetic energy flow in response to undulating solar wind. The theoretical study provides new understanding of the significance of the electromagnetic energy flow and its dependence on different parameters.

Sarah Gibson, et. al. describe the scientific objectives and instrument design of the ASPIICS coronagraph launched aboard the Proba-3 mission of the European Space Agency (ESA) on 5 December 2024. 

Juie Shetye and Mausumi Dikpati present a novel machine-learning-based hybrid forecasting strategy for predicting next enhanced burst of solar activity. This hybrid forecast-system combines numerical, statistical, and machine-learning techniques to detect the occurrence of the next bursts of solar activity.