[123] Love, J. J., Sobieszczyk, S., Rigler, E. J., Kelbert, A. & Lewis, K. A., 2024. The solar cycle, geology, and geoelectric hazards for power grids: U.S. Geological Survey Fact Sheet 2024-3036, 4 p., doi:10.3133/fs20243036. [Link]
[122] Love, J. J. & Mursula, K. 2024. Challenging ring-current models of the Carrington storm, Journal of Geophysical Research: Space Physics, 129(9), e2024JA032541, doi:10.1029/2024JA032541. [Link]
[121] Love, J. J., Rigler, E. J., Hayakawa, H. & Mursula K., 2024. On the uncertain intensity estimate of the 1859 Carrington storm, Journal of Space Weather and Space Climate, 14, 21, doi:10.1051/swsc/2024015. [Link]
[120] Love, J. J., Rigler, E. J., Hartinger, M. D., Lucas, G. M., Kelbert, A. & Bedrosian, P. A., 2023. The March 1940 superstorm: Geoelectromagnetic hazards and impacts on American communication and power systems, Space Weather, 21(6), e2022SW003379. doi:10.1029/2022SW003379. [Link] [Spaceweather.com]
[119] Hartinger, M. D., Shi, X., Rodger, C. J., Fujii, I., Rigler, E. J., Kappler, K., Matzka, J., Love, J. J., Baker, J. B. H., Mac Manus, D. H., Dalzell, M. & Petersen, T., 2023. Determining ULF wave contributions to geomagnetically induced currents: The important role of sampling rate, Space Weather, 21(5), e2022SW003340, doi:10.1029/2022SW003340. [Link]
[118] Love, J. J. & Wilber, S. F., 2023. Voltages measured on long grounded electrically conducting lines in North America, 1891-1940, U.S. Geological Survey data release, doi:10.5066/P9NEQGVB. [Link]
[117] Love, J. J., Lucas, G. M., Rigler, E. J., Murphy, B. S., Kelbert, A. & Bedrosian, P. A., 2022. Mapping a magnetic superstorm: March 1989 geoelectric hazards and impacts on United States power systems, Space Weather, 20(5), e2021SW003030, doi:10.1029/2021SW003030. [Link] [EarthSky] [Spaceweather.com] Movies: [gif] [mp4] [png]
[116] Love, J. J. & Murphy, B. S., 2022. North American electricity power-grid and communication-network anomalies for several magnetic storms, U.S. Geological Survey data release, https://doi.org/10.5066/P9N4DVNT. [Link]
[115] Love, J. J., Lucas, G. M., Murphy, B. S., Bedrosian, P. A., Rigler, E. J. & Kelbert, A., 2021. Down to Earth with nuclear electromagnetic pulse: Realistic surface impedance affects mapping of the E3 geoelectric hazard, Earth and Space Science, 8(8), e2021EA001792, doi:10.1029/2021EA001792. [Link] [IEEE Spectrum] [Futura Sciences] [Spaceweather.com] [Tendencias] [USGS Technical Announcement]
[114] Murphy, B. S., Lucas, G. M., Love, J. J., Kelbert, A., Bedrosian, P. A. & Rigler, E. J., 2021. Magnetotelluric sampling and geoelectric hazard estimation: Are national-scale surveys sufficient?, Space Weather, 19(7), e2020SW002693, doi:10.1029/2020SW002693. [Link]
[113] Love, J. J., 2021. Extreme‐event magnetic storm probabilities derived from rank statistics of historical Dst intensities for solar cycles 14‐24, Space Weather, 19(4), e2020SW002579, doi:10.1029/2020SW002579. [Link] [Spaceweather.com] [Spaceweather.com]
[112] Love, J. J. & Lewis, K. A., 2021. Geomagnetic monitoring in the Mid-Atlantic United States, USGS Fact Sheet, 2021-3001, doi:10.3133/fs3001. [Link]
[111] Welling, D. T., Love, J. J., Rigler, E. J., Oliveira, D. M., Komar, C. M. & Morley, S. K., 2021. Numerical simulations of the geospace response to the arrival of an idealized perfect interplanetary coronal mass ejection, Space Weather, 19(2), e2020SW002489, doi:10.1029/2020SW002489. [Link] [American Radio Relay League (ARRL)] [Spaceweather.com]
[110] Cliver, E. W., Hayakawa, H., Love, J. J. & Neidig, D. F., 2020. On the size of the flare associated with the solar proton event in 774 AD, Astrophys. J., 903(1), 41, doi:10.3847/1538-4357/abad93. [Link] [Syfy Wire: Bad Astronomy]
[109] Love, J. J., Kelbert, A., Murphy, B. S., Rigler, E. J. & Lewis, K. A., 2020. Geomagnetism Program research plan, 2020–2024, USGS Circular 1469, 19 p., doi:10.3133/cir1469. [Link]
[108] Lucas, G. M., Love, J. J., Kelbert, A., Bedrosian, P. A. & Rigler, E. J., 2020. A 100-year geoelectric hazard analysis for the U.S. high-voltage power grid, Space Weather, 18(2), e2019SW002329, doi:10.1029/2019SW002329. [Link] [EnergyWire] [Gizmodo] [IEEE Spectrum] [Physics World] [Spaceweather.com]
[107] Love, J. J., 2020. Some experiments in extreme-value statistical modeling of magnetic superstorm intensities, Space Weather, 18(1), e2019SW002255, doi:10.1029/2019SW002255. [Link]
[106] Love, J. J., Bedrosian, P. A., Kelbert, A. & Lucas, G. M., 2019. Empirical estimation of natural geoelectric hazards, In: Geomagnetically Induced Currents from the Sun to the Power Grid (Eds. Gannon, J. L., Swidinsky, A. & Xu, Z.), AGU Monograph 244, Chapter 6, 95-105, John Wiley & Sons, Hoboken, NJ, doi:10.1002/9781119434412.ch6. [Link]
[105] Love, J. J., 2019. Will Earth’s magnetic poles flip?, Astronomy, Ask Astro, October, 70-71. [Link]
[104] Love, J. J., Hayakawa, H. & Cliver, E. W., 2019. Intensity and impact of the New York Railroad Superstorm of May 1921, Space Weather, 17(8), 1281-1292, doi:10.1029/2019SW002250. [Link] [Astronomy Magazine] [Knowable Magazine] [Peraton Weather] [Scientific American] [Spaceweather.com] [Spaceweather.com] [The Independent]
[103] Love, J. J., Lucas, G., Bedrosian, P. A. & Kelbert, A., 2019. Extreme‐value geoelectric amplitude and polarization across the Northeast United States, Space Weather, 17(3), 379-395, doi:10.1029/2018SW002068. [Link] [International Business Times] [National Geographic] [Science Alert] [Scientific American] [USGS]
[102] Hayakawa, H., Ebihara, Y., Cliver, E. W., Hattori, K., Toriumi, S., Love, J. J., Umemura, N., Namekata, K., Sakaue, T., Takahashi, T. & Shibata, K., 2019. The extreme space weather event in September 1909, Mon. Not. Roy. Astro. Soc., 484(3), 4083-4099, doi:10.1093/mnras/sty3196. [Link]
[101] Love, J. J., Hayakawa, H. & Cliver, E. W., 2019. On the intensity of the magnetic superstorm of September 1909, Space Weather, 17(1), 37-45, doi:10.1029/2018SW002079. [Link]
[100] Love, J. J. & Finn, C. A., 2018. Honolulu Magnetic Observatory, USGS Fact Sheet, 2018-3029, doi:10.3133/fs20183029. [Link]
[99] Love, J. J., Lucas, G. M., Kelbert, A. & Bedrosian, P. A., 2018. Geoelectric hazard maps for the Pacific Northwest, Space Weather, 16(8), 1114-1127, doi:10.1029/2018SW001844. [Link]
[98] Love, J. J., Rigler, E. J., Kelbert, A., Finn, C. A., Bedrosian, P. A. & Balch, C. C., 2018. On the feasibility of real-time mapping of the geoelectric field across North America, USGS Open-File Report, 2018-1043, 16 p., doi:10.3133/ofr20181043. [Link]
[97] Cuttler, S. W., Love, J. J. & Swidinsky, A., 2018. Geoelectric hazard assessment: The differences of geoelectric responses during magnetic storms within common physiographic zones, Earth Planets Space, 70, 35, doi:10.1186/s40623-018-0807-7. [Link]
[96] Lucas, G. M., Love, J. J. & Kelbert, A., 2018. Calculation of voltages in electric power transmission lines during historic geomagnetic storms: An investigation using realistic Earth impedances, Space Weather, 16(2), 185-195, doi:10.1002/2017SW001779. [Link] [EurekAlert!] [USGS]
[95] Love, J. J., 2018. The electric storm of November 1882, Space Weather, 16(1), 37-46, doi:10.1002/2017SW001795. [Link] [USGS]
[94] Love, J. J., Lucas, G. M., Kelbert, A. & Bedrosian, P. A., 2018. Geoelectric hazard maps for the Mid-Atlantic United States: 100 year extreme values and the 1989 magnetic storm, Geophys. Res. Lett., 45(1), 5-15, doi:10.1002/2017GL076042. [Link] [GRL]
[93] Love, J. J. & Bedrosian, P. A., 2018. Extreme-event geoelectric hazard maps, in Extreme Space Weather: Origins, Predictability, and Consequences (Ed. N. Buzulukov), Chapter 9, 209-230, Elsevier, Amersterdam, The Netherlands. [Link]
[92] Blum, C. C., White, T. C., Sauter, E. A., Stewart, D. C., Bedrosian, P. A. & Love, J. J., 2017. Geoelectric monitoring at the Boulder magnetic observatory, Geosci. Instrum. Method. Data Syst., 6, 447-452, doi:10.5194/gi-6-447-2017. [Link]
[91] Love, J. J. & Finn, C. A., 2017. Real-time geomagnetic monitoring for space-weather related applications: Opportunities and challenges, Space Weather, 15(7), 820-827, doi:10.1002/2017SW001665. [Link]
[90] Kelbert, A., Balch, C. C., Pulkkinen, A., Egbert, G. D., Love, J. J., Rigler, E. J. & Fujii, I., 2017. Methodology for time-domain estimation of storm time geoelectric fields using the 3-D magnetotelluric response tensors, Space Weather, 15(7), 874-894, doi:10.1002/2017SW001594. [Link] [Space Weather]
[89] Pulkkinen, A., Bernabeu, E., Thomson, A., Viljanen, A., Pirjola, R., Boteler, D., Eichner, J., Cilliers, P. J., Welling, D., Savani, N. P., Weigel, R. S., Love, J. J., Balch, C., Ngwira, C. M., Crowley, G., Schultz, A., Kataoka, R., Anderson, B., Fugate, D., Simpson, J. J. & MacAlester M., 2017. Geomagnetically induced currents: Science, engineering and applications readiness, Space Weather, 15(7), 828-856, doi:10.1002/2016SW001501. [Link]
[88] Love, J. J., Bedrosian, P. A. & Schultz, A., 2017. Down to Earth with an electric hazard from space, Space Weather, 15(5), 658-662, doi:10.1002/2017SW001622. [Link]
[87] Love, J. J., Finn, C. A., Gamez Valdez, Y. C. & Swann, D., 2017. Magnetic monitoring in Saguaro National Park, USGS Fact Sheet, 2017-3035, doi:10.3133/fs20173035. [Link]
[86] Riley, P. & Love, J. J., 2017. Extreme geomagnetic storms: Probabilistic forecasts and their uncertainties, Space Weather, 15(1), 53-64, doi:10.1002/2016SW001470. [Link]
[85] Love, J. J. & Coisson, P., 2016. The geomagnetic blitz of September 1941, Eos, 97(20), 18-22, doi:10.1029/2016EO059319. [Link] [Der Spiegel (Germany)]
[84] Love, J. J., Pulkkinen, A., Bedrosian, P. A., Jonas, S., Kelbert, A., Rigler, E. J., Finn, C. A., Balch, C. C., Rutledge, R., Waggel, R. M., Sabata, A. T., Kozyra, J. U. & Black, C. E., 2016. Geoelectric hazard maps for the continental United States, Geophys. Res. Lett., 43(18), 9415-9424, doi:10.1002/2016GL070469. [Link] [Earth Magazine] [Eos] [Nature] [Popular Science] [Science] [USGS]
[83] Love, J. J., 2016. Weathering a perfect storm from space, Earth, 51(2), 8-9. [Link]
[82] Love, J. J., Coisson, P. & Pulkkinen, A., 2016. Global statistical maps of extreme-event magnetic observatory 1 min first differences in horizontal intensity, Geophys. Res. Lett., 43(9), 4126-4135, doi:10.1002/2016GL068664. [Link]
[81] Love, J. J. & Swidinsky, A., 2015. Observatory geoelectric fields induced in a two-layer lithosphere during magnetic storms, Earth Planets Space, 67, 58, doi:10.1186/s40623-015-0213-3. [Link]
[80] Thomas, J. N., Masci, F. & Love, J. J., 2015. On a report that the 2012 M6.0 earthquake in Italy was predicted after seeing an unusual cloud formation, Nat. Hazards Earth Syst. Sci., 15(5), 1061-1068, doi:10.5194/nhess-15-1061-2015. [Link]
[79] Love, J. J., 2015. Aurora painting pays tribute to Civil War’s end, Eos, 96(19), 12-16, doi:10.1029/2015EO035713. [Link] [USGS]
[78] Love, J. J., Rigler, E. J., Pulkkinen, A. & Riley, P., 2015. On the lognormality of historical magnetic storm intensity statistics: Implications for extreme-event probabilities, Geophys. Res. Lett., 42(16), 6544-6553, doi:10.1002/2015GL064842. [Link]
[77] Love, J. J., Finn, C. A., Pedrie, K. & Blum, C. C., 2015. The Boulder magnetic observatory, USGS Open-File Report, 2015-1125, 8 p., doi:10.3133/ofr20151125. [Link]
[76] Blum, C., Love, J. J., Pedrie, K., Bedrosian, P. A. & Rigler, E. J., 2015. A one-dimensional model of solid-earth electrical resistivity beneath Florida, USGS Open-File Report, 2015-1185, 16 p., doi:10.3133/ofr20151185. [Link]
[75] Bedrosian, P. A. & Love, J. J., 2015. Mapping geoelectric fields during magnetic storms: Synthetic analysis of empirical United States impedances, Geophys. Res. Lett., 42(23), 10,160-10,170, doi:10.1002/2015GL066636. [Link] [USGS]
[74] Love, J. J. & Swidinsky, A., 2014. Time causal operational estimation of electric fields induced in the Earth’s lithosphere during magnetic storms, Geophys. Res. Lett., 41(7), 2266-2274, doi:10.1002/2014GL059568. [Link]
[73] Love, J. J. & Rigler, E. J., 2014. The magnetic tides of Honolulu, Geophys. J. Int., 197(3), 1335-1353, doi:10.1093/gji/ggu090. [Link]
[72] Love, J. J., 2014. Auroral omens of the American Civil War, Weatherwise, 67(5), 34-41, doi:10.1080/00431672.2014.939912. [Link]
[71] Love, J. J., Rigler, E. J., Pulkkinen, A. & Balch, C. C., 2014. Magnetic storms and induction hazards, EOS, Trans. AGU, 95(48), 445–446, doi:10.1002/2014EO480001. [Link]
[70] Holmes, R. R., Jones, L. M., Eidenshink, J. C., Godt, J. W., Kirby, S. H., Love, J. J., Neal, C. A., Plant, N. G., Plunkett, M. L., Weaver, C. S., Wein, A. & Perry, S. C., 2013. U.S. Geological Survey Natural Hazards Science Strategy—Promoting the Safety, Security, and Economic Well-Being of the Nation, USGS Circular, 1383–F, 79 p., doi:10.3133/cir1383F. [Link]
[69] Love, J. J. & Thomas, J. N., 2013. Insignificant solar-terrestrial triggering of earthquakes, Geophys. Res. Lett., 40(6), 1165-1170, doi:10.1002/grl.50211. [Link]
[68] Love, J. J., 2013. On the insignificance of Herschel’s sunspot correlation, Geophys. Res. Lett., 40(16), 4171-4176, doi:10.1002/grl.50846. [Link] [AGU] [RealClimate]
[67] Love, J. J. & Chulliat, A., 2013. An international network of magnetic observatories, EOS, Trans. AGU, 94(42), 373-374, doi:10.1002/2013EO420001. [Link]
[66] Buchanan, A., Finn, C. A., Love, J. J., Worthington, E. W., Lawson, F., Maus, S., Okewunmi, S. & Poedjono, B., 2013. Geomagnetic referencing – The real-time compass for directional drillers, Oilfield Rev., 25(3), 32-47. [Link] [In Chinese]
[65] Love, J. J., Rigler, E. J. & Gibson, S. E., 2012. Geomagnetic detection of the sectorial solar magnetic field and the historical peculiarity of minimum 23-24, Geophys. Res. Lett., 39(4), L04102, doi:10.1029/2012GL050702. [Link] [GRL]
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[63] Thomas, J. N., Love, J. J., Komjathy, A., Verkhoglyadova, O. P., Butala, M. & Rivera, N., 2012. On the reported ionospheric precursor of the 1999 Hector Mine, California earthquake, Geophys. Res. Lett., 39(6), L06302, doi:10.1029/2012L051022. [Link]
[62] Love, J. J. & Rigler, E. J., 2012. Sunspot random walk and 22-year variation, Geophys. Res. Lett., 39(10), L10103, doi:10.1029/2012GL051818. [Link]
[61] Siscoe, G. L., Love, J. J. & Gannon, J. L., 2012. Problem of the Love-Gannon relation between the asymmetric disturbance field and Dst, J. Geophys. Res., 117(A9), A09216, doi:10.1029/2012JA017879. [Link]
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[58] Gannon, J. L., Love, J. J., Friberg, P. A., Stewart, D. C. & Lisowski, S. W., 2011. U.S. Geological Survey Near Real-Time Dst Index, USGS Open-File Report, 2011-1030, 10 p. [Link]
[57] Gannon, J. L. & Love, J. J., 2011. USGS 1-min Dst, J. Atmos. Solar-Terr. Phys., 73(2-3), 323-334, doi:10.1016/j.jastp.2010.02.013. [Link]
[56] Love, J. J., 2011. Secular trends in storm-level geomagnetic activity, Ann. Geophys., 29(2), 251-262, doi:10.5194/angeo-29-251-2011. [Link]
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[54] Love, J. J., 2011. Long-term biases in geomagnetic K and aa indices, Ann. Geophys., 29(8), 1365-1375, doi:10.5194/angeo-29-1365-2011. [Link]
[53] Love, J. J. & Finn, C. A., 2011. The USGS Geomagnetism Program and its role in space weather monitoring, Space Weather, 9(7), S07001, doi:10.1029/2011SW000684. [Link]
[52] Mursula, K., Tanskanen, E. & Love, J. J., 2011. Spring-fall asymmetry of sub-storm strength, geomagnetic activity and solar wind: Implications for semiannual variation and solar hemispheric asymmetry, Geophys. Res. Lett., 38(6), L06104, doi:10.1029/2011GL046751. [Link]
[51] Love, J. J., Mursula, K., Tsai, V. C. & Perkins, D. M., 2011. Are secular correlations between sunspots, geomagnetic activity, and global temperature significant?, Geophys. Res. Lett., 38(21), L21703, doi:10.1029/2011GL049380. [Link]
[50] Love, J. J. & Gannon, J. L., 2010. Movie-maps of low-latitude magnetic storm disturbance, Space Weather, 8(6), S06001, doi:10.1029/2009SW000518. [Link]
[49] Love, J. J., Tsai, V. C. & Gannon, J. L., 2010. Averaging and sampling for magnetic-observatory hourly data, Ann. Geophys., 28(11), 2079-2096, doi:10.5194/angeo-28-2079-2010. [Link]
[48] Purucker, M., Sabaka, T., Kuang, W., Maus, S. & Love, J. J., 2009. Earth’s magnetic field complex, US National activities during the Decade of Geopotential Field Research, Proc. ESA 2nd Swarm Int. Sci. Meeting, Postsdam, Germany.
[47] Love, J. J., 2009. Missing data and the accuracy of magnetic-observatory hour means, Ann. Geophys., 27(9), 3601-3610, doi:10.5194/angeo-27-3601-2009. [Link]
[46] Nose, M., Iyemori, T., Takeda, M., Toh, H., Ookawa, T., Cifuentes-Nava, G., Matzka, J., Love, J. J., McCreadie, H., Tuncer, M. K. & Curto, J. J., 2009. New substorm index derived from high-resolution geomagnetic field data at low latitude and its comparison with AE and ASY indices, Proc. XIII IAGA Workshop, Golden, CO, Love, J. J. (ed.), pp. 202-207. [Link]
[45] Thomas, J. N., Love, J. J. & Johnston, M. J. S., 2009. On the reported magnetic precursor of the 1989 Loma Prieta earthquake, Phys. Earth Planet. Int., 173(3-4), 207-215, doi:10.1016/j.pepi.2008.11.014. [Link]
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[29] Love, J. J., 2006. National Geomagnetism Program: Current Status & Five-Year Plan, USGS Open-File Report, 2006-1352, Reston, VA. [Link]
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[23] Love, J. J., 2002. Geodynamo, McGraw-Hill Encyclopedia of Science & Technology, Vol. 8, 16-18.
[22] Worthington, E. W. & Love, J. J., 2002. Geomagnetic field monitoring at Barrow, Alaska, Climate Monitoring and Diagnositics Laboratory, NOAA, US Dept. Commerce, 26, 166-170. [Link]
[21] Gubbins, D., Barber, N. C., Gibbons, S. & Love, J. J., 2000. Kinematic dynamo action in a sphere: I Effects of differential rotation and meridional circulation, Proc. R. Soc. Lond., A, 456(1998), 1333-1353, doi:10.1098/rspa.2000.0565. [Link]
[20] Gubbins, D., Barber, N. C., Gibbons, S. & Love, J. J., 2000. Kinematic dynamo action in a sphere: II Symmetry selection, Proc. R. Soc. Lond., A, 456(1999), 1669-1683, doi:10.1098/rspa.2000.0581. [Link]
[19] Love, J. J., 2000. Statistical assessment of preferred transitional VGP longitudes based on paleomagnetic volcanic data, Geophys. J. Int., 140(1), 211-221, doi:10.1046/j.1365- 246x.2000.00025.x. [Link]
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[16] Love, J. J., 2000. Dynamo action and the nearly axisymmetric magnetic field of Saturn, Geophys. Res. Lett., 27(18), 2889-2892, doi:10.1029/1999GL008466. [Link]
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[14] Love, J. J., 1999. A critique of frozen-flux inverse modelling of a nearly steady geodynamo, Geophys. J. Int., 138(2), 353-365, doi:10.1046/j.1365-246x.1999.00895.x. [Link]
[13] Love, J. J., 1999. Reversals and excursions of the geodynamo, Astron. Geophys., 40(6), 6.14-6.19, doi:10.1093/astrog/40.6.6.14. [Link]
[12] Gubbins, D. & Love, J. J., 1998. Preferred VGP paths during geomagnetic polarity reversals: Symmetry considerations, Geophys. Res. Lett., 25(7), 1079-1082, doi:10.1029/98GL00711. [Link]
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[9] Love, J. J. & Gubbins, D., 1996. Dynamos driven by poloidal flows exist, Geophys. Res. Lett., 23(8), 857-860, doi:10.1029/96GL00846. [Link]
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[2] Neidig, D. F., Kane, S. R., Love, J. J. & Cliver, E. W., 1986. Why P/OF should look for evidences of over-dense structures in solar hard x-ray sources, Solar Flares and Coronal Physics Using P/OF as a Research Tool, NASA, Marshall Space Flight Center, 142-145. [Link]
[1] Kane, S. R., Love, J. J., Neidig, D. F. & Cliver, E. W., 1985. Characteristics of the white-light source in the 1981 Apr. 24 solar flare, Astrophys. J. (Letters), 290, L45-L48, doi:10.1086/184439. [Link]