Acknowledgements This project was made possible by the UNH Project SMART and NASA under grant number NNX11AO82G. Allen, R. C., et al. (2013), JGR, submitted.

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Acknowledgements This project was made possible by the UNH Project SMART and NASA under grant number NNX11AO82G. Allen, R. C., et al. (2013), JGR, submitted. Rauch and Roux (1982), JGR. However, other wave activity has been witnessed not in conjunction with this particular Cluster event, e.g., the South Pole magnetometer, suggesting that other EMIC waves may be generated at different locations in the Earth’s magnetosphere that propagated along field lines to the ground. Our future work will be to examine data taken from other satellites and attempt to connect their observations to these non Cluster- observed events. Abstract: Electromagnetic Ion Cyclotron (EMIC) waves are generated in space and some of them can propagate along magnetic field lines to the ground [Rauch and Roux, 1982]. In this study we selected an EMIC wave event detected in situ by the Cluster spacecraft on 9 April 2005, and connected it to multiple ground-based magnetometers. The Orbit Visualization Tool (OVT) has been used to map out Cluster's orbit along magnetic field lines to the Earth. Events, not observed by Cluster but by ground-based magnetometers around the 2005 event, are also included to reveal how multiple waves may be generated in space and observed at different times and locations on the ground. Motivation Ground-based Stations vs. Cluster Summary & Discussion: References 1.Perform a conjunction study of an EMIC wave event using observations both in space and on the ground 2.Extend the case study of the EMIC wave event on 9 April 2005 by including ground-based data [Allen et al., 2013]. S. B. Pesavento 1, R. C. Allen 1, A. A. Saikin 1, J. -C. Zhang 1, L. M. Kistler 1 1 Space Science Center, University of New Hampshire, Durham, NH, 03824, USA 2013 Project SMART Workshop, UNH, Durham, NH, July 26, 2013 All Ground-based Wave Observations Above are ground-based magnetometers in both hemispheres used in this study. The red points represent Cluster’s magnetic footprints. Plotted also is Cluster’s orbit in space along with the magnetic field lines of the Earth. Cluster-observed EMIC waves Ground-based Magnetometer Observations of the Cluster Event Non Cluster-observed Event Ground-based observations of Cluster-detected EMIC waves On 8 April 2005, the South Pole also detected wave activity, but not always associated with the above Cluster plot (that is, different wave frequencies; see the figure above). This infers that other places in the Earth’s magnetosphere may be generating waves at approximately the same time. On 9 April 2005, a few hours after being observed by Cluster, ground-based magnetometers took data as the EMIC waves reached Earth’s surface. They have been offset to reflect longitudinal differences. See location plot for details. Cluster encountered this EMIC wave event on 9 April 2005, as it propagated along field lines towards both hemispheres of the Earth. The wave event occurs between 0.27 and 0.6 Hz, above the 0.25 Hz spin noise line. Arranged by latitude, from North to South, the above plot displays all times where any wave activity was observed on 9 April 2005 on the ground. The black vertical line at 10.2 MLT marks the time when Cluster started to observe the EMIC event. 3:3: 4: 5: The Mondy plot has been offset to show how slight changes in longitude can delay when a wave is observed on the ground in Universal Time. The Gakona plot has been offset to show how large changes in longitude can delay when a wave is observed on the ground in Universal Time. This noise line represents Cluster’s spin rotation and is purely artificial. After checking all available data from several ground-based magnetometer campaigns, ranging from Finland to Antarctica, those below witnessed this Cluster event: Cluster MagnetometerLatitudeLongitudeLocation SS XB72.3 N40Sondrestrom, Greenland CONT72.82 N304.82Contowoyto Lake, Canada RANK72.22 N335.97Rankin Inlet, Canada KIL69.02 N20.86Kilpisjärvi, Finland IVA68.55 N27.28Ivalo, Finland FCHU68.32 N333.54Fort Churchhill, Canada SOD67.42 N26.39Sodankylä, Finland FSMI67.28 N306.9Fort Smith, Canada FSIM67.23 N294.29Fort Simpson, Canada ROV66.78 N25.94Rovaniemi, Finland GILL66.03 N333.05Gillam, Canada DAWS65.9 N273.89Dawson City, Canada OUL65 N25.5Oulu, Finland MCMU64.17 N309.2Fort McMurray, Canada ISLL63.62 N333.36Island Lake, Canada GKN63.1 N266.8Gakona, United States NUR60.51 N24.65Nurmijärvi, Finland MND46.8 N174.6Mondy, Canada UZR48.44 N180.66Uzury, Russia Halley Bay62.2 S29.8Weddell Sea, Antartica SP XB74.3 S18.7South Pole, Antarctica MC XB80 S326.5Ross Island, Antarctica Sondrestrom, GreenlandKilpisjärvi, FinlandSodankylä, FinlandRovaniemi, FinlandOulu, FinlandGakona, United StatesUzury, Russia Contowoyto Lake, CanadaIvalo, FinlandFort Smith, CanadaGillam, CanadaFort McMurray, CanadaNurmijärvi, FinlandWeddell Sea, Antarctica Rankin Inlet, CanadaFort Churchhill, CanadaFort Simpson, CanadaDawson City, CanadaIsland Lake, CanadaMondy, CanadaSouth Pole, Antarctica