Data for climatological model of extreme geomagnetic fluctuations. Description here. https://www.swsc-journal.org/articles/swsc/olm/2020/01/swsc190058/swsc190058-1-olm.zip Magnetic time series for Differential Magnetometer site Whiteadder Moor (WHI). https://www.bgs.ac.uk/services/ngdc/accessions/index.html#item134025 Magnetic time series for Differential Magnetometer site Abbey St.Bathans (ASB). https://www.bgs.ac.uk/services/ngdc/accessions/index.html#item133965 |
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Li, B., D.-S. Han, Z.-J. Hu1, H.-Q. Hu, J.-J. Liu, L. Dai, H. Liu, C.P. Escoubet, M.W. Dunlop, R. E. Ergun, and P.-A. Lindqvist, R. B. Torbert, C. T. Russell (2019), Magnetospheric Multiscale observations of ULF waves and correlated low-energy ion monoenergetic acceleration, J. Geophys. Res., DOI: 10.1029/2018JA026372
Lockwood, M., Bentley, S. N., Owens, M. J., Barnard, L. A., Scott, C. J., Watt, C. E., et al. ( 2019). The development of a space climatology: 3. Models of the evolution of distributions of space weather variables with timescale. Space Weather, 17, 180– 209. https://doi.org/10.1029/2018SW002017
Lockwood, M., Bentley, S. N., Owens, M. J., Barnard, L. A., Scott, C. J., Watt, C. E., Allanson, O., & Freeman, M. P. ( 2019). The development of a space climatology: 2. The distribution of power input into the magnetosphere on a 3‐hourly timescale. Space Weather, 17, 157– 179. https://doi.org/10.1029/2018SW002016
Lockwood, M., Bentley, S. N., Owens, M. J., Barnard, L. A., Scott, C. J., Watt, C. E., & Allanson, O. ( 2019).The development of a space climatology: 1. Solar wind magnetosphere coupling as a function of timescale and the effect of data gaps. Space Weather, 17, 133– 156. https://doi.org/10.1029/2018SW001856
Lockwood, M., Chambodut, A., Barnard, L.B., Owens, M.J., Clarke, E., Mendel, V. (2018). A homogeneous aa index: 1. Secular variation,
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Lockwood, M., Bentley, S., Owens, M.J., Barnard, L.A., Scott, C.J., Watt, C.E. and O. Allanson (2018) The development of a space climatology: 1. Solar‐wind magnetosphere coupling as a function of timescale and the effect of data gaps, Space Weather, 17, 133‐156. https://doi.org/10.1029/2018SW001856
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Martyn, T.P.; Swan. A.P.; Taylor, T.L.; Turbitt, C.W. (2019) Differential Magnetometer System in Support of Space Weather Impact Modelling. Conrad Observatory Journal 5 - Special Issue IAGA Workshop 2018, p.18
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Rogers, N.C., Wild, J.A., Eastoe, E.F., Gjerloev, J.W., and Thomson, A.W.P.. A global climatological model of exteme geomagnetic field fluctuations J. Space Weather Space Clim., 10 (2020) 5 DOI: https://doi.org/10.1051/swsc/2020008
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International Space Science Institute annual report: http://www.issibern.ch/publications/pdf/ar/ar21.pdf
Submitted and under review:
Eggington, J. W. T., et al., Dipole Tilt Effect on Magnetopause Reconnection and the Steady-State Magnetosphere-Ionosphere System: Global MHD Simulations, Journal of Geophysical Research - Space Physics, submitted, 2020.
M. Lockwood, J. Coxon, C.E. Watt, M.J. Owens, L.A. Barnard, C.J. Scott and K.A. McWilliams, Semi-annual, annual and Universal Time variations in the magnetosphere and in geomagnetic activity: 4. Cluster observations in the near-Earth tail, submitted to Space Weather and Space Climate
M. Lockwood, M.J. Owens, L.A. Barnard, C.E. Watt, C.J. Scott, J. Coxon and K.A. McWilliams, Semi-annual, annual and Universal Time variations in the magnetosphere and in geomagnetic activity: 3. Modelling, submitted to Space Weather and Space Climate
M. Lockwood, K.A. McWilliams, M.J. Owens, L.A. Barnard, C.E. Watt, C.J. Scott, A. Macneill and J. Coxon, Semi-annual, annual and Universal Time variations in the magnetosphere and in geomagnetic activity: 2. The effect of solar wind variations, submitted to Space Weather and Space Climate
M. Lockwood, M.J. Owens, L.A. Barnard, C. Haines, C.J. Scott, K.A. McWilliams and J. Coxon, Semi-annual, annual and Universal Time variations in the magnetosphere and in geomagnetic activity: 1. Geomagnetic data, submitted to Space Weather and Space Climate
Metman, MC, CD Beggan, PW Livermore, JE Mound (2020). Forecasting yearly geomagnetic variation through sequential estimation of core flow and magnetic diffusion, Earth, Planets, Space, submitted.
Malcolm has also been involved in ESA FAC-MICE (Field-Aligned Currents Methodology Inter-Comparison Exercise) activity. Working group set up by ESA under DISC to support the SWARM analysis. Topic was the comparison of outputs from different methods to assess quality parameters and the effect of physical conditions. Set up end of 2017. See http://adsabs.harvard.edu/abs/2018cosp...42E3424T