Camilla Scolini: "Geoeffective CMEs in Solar Cycle 24 + CME modelling with EUHFORIA". ------------------------------------------------------------- Vincent James Adkins: Title: Super Dual Auroral Radar Network Summary: Applied physics and engineering in the field and using the SuperDARN data/tools coupled with CCMC data/tools --------------------------------------------------------- Elena Ivannikova: “Regional rigorous 3-D modelling of ground geoelectric field due to realistic geomagnetic disturbances. An approach and implementation” --------------------------------------------------------- Zach Robinson: Title: Probabilistic Modelling of SEP events ---------------------------------------------------------- Sara Negussie: Title: Solar Cycle 23 and 24 as Seen Through the Forbush Decrease. --------------------------------------------------------- Elizandro Huipe-Domratcheva: Title: Detection of solar radio emitions in Mexico. Abstract This is a litle presentation of the Mexican space weather service (SCiESMEX for its acronym in Spanish) and the national laboratory of space weather (LANCE). With two of their instruments is being made a comparison of solar radio emission detections. --------------------------------------------------------- Emily Mason: "Extreme Ultraviolet Photon Sieve Telescopes to Study the Solar Corona (or, Using a Vegetable Strainer to Look at the Sun)” --------------------------------------------------------- Tamas Sandor Kiss: Title: Systematic Variations of Macrospicule Observed by SDO/AIA Over Half a Decade ---------------------------------------------------------- Bill Liles: "Solar Eclipse Impact on Medium and Low Frequency Radiowave Propagation." ----------------------------------------------------------- Dev Joshi High Frequency (HF) radio wave propagation results from the Metal Oxide Space Cloud Experiment Abstract: With support from the NASA sounding rocket program, the Air Force Research Laboratory (AFRL) launched two sounding rockets in the Kwajalein Atoll, Marshall Islands in May 2013 known as the Metal Oxide Space Cloud (MOSC) experiment. The rockets released samarium metal vapor at preselected altitudes in the lower F-region that ionized forming a plasma cloud. Data from ALTAIR incoherent scatter radar and high frequency (HF) radio links have been analyzed to understand the impacts of the artificial ionization on radio wave propagation. The HF radio wave ray-tracing toolbox PHaRLAP along with ionospheric models constrained by electron density profiles measured with the ALTAIR radar have been used to successfully model the effects of the cloud on HF propagation. Up to three new propagation paths were created by the artificial plasma injections. Observations and modeling confirm that the small amounts of ionized material injected in the lower-F region resulted in significant changes to the natural HF propagation environment. ------------------------------------------------------------