Publications of Mathew Owens

A list of publications authored or co-authored by Mathew Owens, derived from the SAO/NASA Astrophysics Data System (ADS). The number in brackets after each title indicates the number of citations that the paper has received.

Orcid ID: 0000-0003-2061-2453

List of publications ordered by citations
Number of papers: 224 (refereed: 209)
No. of citations: 6942
First author papers: 62 (refereed: 60)

2026

1. Extended Lead-Time Geomagnetic Storm Forecasting With Solar Wind Ensembles and Machine Learning [0]
   Billcliff, M., Smith, A. W., Owens, M., Woo, W. L., Barnard, L., Edward‐Inatimi, N. & Rae, I. J., Space Weather, 24, e2025SW004823
2. Calibrating Probabilistic Solar-Wind Forecasts Driven by the Wang-Sheeley-Arge Model [0]
   Edward‐Inatimi, N. O., Owens, M. J., Barnard, L., Turner, H., Marsh, M., Gonzi, S. & Lang, M., Space Weather, 24, e2025SW004614
3. Driving Dynamical Inner-Heliosphere Models With In Situ Solar Wind Observations [0]
   Owens, M. J., Barnard, L. A., Turner, H., Gyeltshen, D., Edward-Inatimi, N., O'Donoghue, J., Lockwood, M., Watson, S., Rutala, M., Jackman, C. M. & Riley, P., Space Weather, 24, e2025SW004675
4. Patterns in solar activity over the first millennium CE [0]
   Wang, Jian, Dee, Michael W., Pope, Benjamin J. S., Owens, Mathew J., Brown, David, Lindauer, Susanne, Schwabe, Kirsten, Knapp, Hannes, Westphal, Thorsten & Friedrich, Ronny, Communications Earth and Environment, 7, 96

2025

1. Validating a Non-conventional Method for Expansion of Coronal Mass Ejections (CMEs) and Investigating the Evolution of a CME Substructures Using Solar Orbiter and Wind Observations [0]
   Agarwal, Anjali, Mishra, Wageesh, Owens, Mathew J. & Amerstorfer, Tanja, essoar.175503858
2. Coronal Mass Ejection Transit Time to Earth over the Solar Cycle [0]
   Gyeltshen, Dechen Lhamo, Barnard, Luke, Owens, Mathew J. & Riley, Pete, essoar.175503864
3. Analyses of the Ancient Chinese Report on the Total Solar Eclipse in 709 BCE: Implications for the Contemporaneous Earth's Rotation Speed and Solar Cycles [0]
   Hayakawa, Hisashi, Owens, Mathew J., Jin, Meng, Sôma, Mitsuru & Lockwood, Mike, ApJ, 995, L1
4. Quantifying Uncertainties in Solar Wind Forecasting due to Incomplete Solar Magnetic Field Information [5]
   Heinemann, Stephan G., Pomoell, Jens, Caplan, Ronald M., Owens, Mathew J., Jones, Shaela, Upton, Lisa, Jha, Bibhuti Kumar & Arge, Charles N., ApJ, 986, 166
5. The contribution of the Russell-McPherron effect to the semiannual variation in thermospheric density [0]
   Lockwood, Michael, Scott, Christopher John, O'Donoghue, James, Owens, Mathew J. & Barnard, Luke, essoar.176030854
6. The 2024 May event in the context of auroral activity over the past 375 yr [5]
   Lockwood, Mike, Owens, Mathew J., Brown, William & Vázquez, Manuel, MNRAS, 540, 3596
7. Can a Major Geomagnetic and Auroral Disturbance Originate From a Solar Active Region Close to the Limb? [0]
   Lockwood, Mike, Owens, Mat J., Barnard, Luke A., Brown, William & Gyeltshen, Dechen, Space Weather, 23, e2025SW004517
8. Saturn's upper atmosphere: auroras and 'ring rain' using new H3+ observations with Keck [0]
   O'Donoghue, James, Moore, Luke, Melin, Henrik, Owens, Mathew, Agiwal, Omakshi & Stallard, Tom, EPSC-DPS Joint Meeting 2025, 2025, p. EPSC-DPS2025-751
9. Sub-Auroral Heating at Jupiter Following a Solar Wind Compression [5]
   O'Donoghue, James, Moore, L., Melin, H., Stallard, T., Kurth, W. S., Owens, M., Bhakyapaibul, T., Tao, C., Connerney, J. E. P., Knowles, K. L., Kita, H., Roberts, K., Tiranti, P. I., Agiwal, O., Johnson, R., Wang, R., Thomas, E. & Murakami, G., Geophysical Research Letters, 52, 2024GL113751
10. Implications of Using Spheroidal "Cone Model" CMEs in Solar-Wind Models [2]
    Owens, M. J., Barnard, L. A., Verbeke, C., McGinness, B. P. S., Turner, H., Chi, Y., Gyeltshen, D. & Lockwood, M., Space Weather, 23, e2025SW004397
11. Analog Ensemble Forecasts of Solar Wind Parameters: Quantification of the Predictability and Time-Domain Spectral Performance [0]
    Simon, Pauline A., Chen, Christopher H. K., Owens, Mathew J. & Sishtla, Chaitanya, Space Weather, 23, e2025SW004473
12. Advancing Ionospheric Irregularity Reconstruction With ICON/MIGHTI Wind-Driven Insights [0]
    Tian, Penghao, Yu, Bingkun, Xue, Xianghui, Yamazaki, Yosuke, Owens, Mathew J., Ye, Hailun, Wu, Jianfei, Chen, Tingdi, Scott, Christopher J. & Dou, Xiankang, Geophysical Research Letters, 52, e2025GL115666
13. Using Solar Wind Data Assimilation Results to Drive Dynamic Solar Wind Models [0]
    Turner, Harriet, Owens, Mathew, Barnard, Luke, Lang, Matthew, Henley, Edmund, Bocquet, François-Xavier, Gonzi, Siegfried, Arge, C. Nick, Biddiscombe, Rhiannon & Baratashvili, Tinatin, Space Weather, 23, e2025SW004559
14. Statistical Analysis of Comet Disconnection Events Using STEREO HI and a Data-assimilative Solar Wind Model [2]
    Watson, Sarah, Scott, Chris, Owens, Mathew, Barnard, Luke & Lang, Matthew, ApJ, 982, 66

2024

1. Coronal Models and Detection of the Open Magnetic Field [10]
   Asvestari, Eleanna, Temmer, Manuela, Caplan, Ronald M., Linker, Jon A., Heinemann, Stephan G., Pinto, Rui F., Henney, Carl J., Arge, Charles N., Owens, Mathew J., Madjarska, Maria S., Pomoell, Jens, Hofmeister, Stefan J., Scolini, Camilla & Samara, Evangelia, ApJ, 971, 45
2. Constraints on Solar Wind Density and Velocity Based on Coronal Tomography and Parker Solar Probe Measurements [9]
   Bunting, Kaine A., Barnard, Luke, Owens, Mathew J. & Morgan, Huw, ApJ, 961, 64
3. Tracking solar radio bursts using Bayesian multilateration [3]
   Cañizares, L. A., Badman, S. T., Maloney, S. A., Owens, M. J., Weigt, D. M., Carley, E. P. & Gallagher, P. T., A&A, 684, A182
4. Adapting Ensemble-Calibration Techniques to Probabilistic Solar-Wind Forecasting [3]
   Edward-Inatimi, N. O., Owens, M. J., Barnard, L., Turner, H., Marsh, M., Gonzi, S., Lang, M. & Riley, P., Space Weather, 22, 2024SW004164
5. Adapting ensemble-calibration techniques to probabilistic solar-wind forecasting. [0]
   Edward-Inatimi, Nathaniel Oputari, Owens, Mathew J., Barnard, Luke, Turner, Harriet M., Gonzi, Siegfried, Marsh, Mike S., Lang, Matthew & Riley, Pete, essoar.172745234
6. Analyses for graphical records for a total solar eclipse in 1230 May: a possible reference for the 'Medieval Grand Maximum' [1]
   Hayakawa, Hisashi, Murata, Koji, Owens, Mathew J. & Lockwood, Mike, MNRAS, 530, 3150
7. On the Origin of the Sudden Heliospheric Open Magnetic Flux Enhancement During the 2014 Pole Reversal [7]
   Heinemann, Stephan G., Owens, Mathew J., Temmer, Manuela, Turtle, James A., Arge, Charles N., Henney, Carl J., Pomoell, Jens, Asvestari, Eleanna, Linker, Jon A., Downs, Cooper, Caplan, Ronald M., Hofmeister, Stefan J., Scolini, Camilla, Pinto, Rui F. & Madjarska, Maria S., ApJ, 965, 151
8. Reconstruction of Carrington Rotation Means of Open Solar Flux over the Past 154 Years [5]
   Lockwood, Mike & Owens, Mat, Solar Physics, 299, 28
9. A Geomagnetic Estimate of Heliospheric Modulation Potential over the Last 175 Years [3]
   Owens, Mathew J., Barnard, Luke A., Muscheler, Raimund, Herbst, Konstantin, Lockwood, Mike, Usoskin, Ilya & Asvestari, Eleanna, Solar Physics, 299, 84
10. A Multi-Model Ensemble System for the Outer Heliosphere (MMESH): Solar Wind Conditions Near Jupiter [4]
    Rutala, M. J., Jackman, C. M., Owens, M. J., Tao, C., Fogg, A. R., Murray, S. A. & Barnard, L., Journal of Geophysical Research (Space Physics), 129, e2024JA032613
11. Solar Wind Interactions with Comet C/2021 A1 Using STEREO HI and a Data-assimilative Solar Wind Model [4]
    Watson, Sarah R., Scott, Christopher J., Owens, Mathew J. & Barnard, Luke A., ApJ, 970, 101
12. Multi-source connectivity as the driver of solar wind variability in the heliosphere [30]
    Yardley, Stephanie L., Brooks, David H., D'Amicis, Raffaella, Owen, Christopher J., Long, David M., Baker, Deb, Démoulin, Pascal, Owens, Mathew J., Lockwood, Mike, Mihailescu, Teodora, Coburn, Jesse T., Dewey, Ryan M., Müller, Daniel, Suen, Gabriel H. H., Ngampoopun, Nawin, Louarn, Philippe, Livi, Stefano, Lepri, Sue, Fludra, Andrzej, Haberreiter, Margit & Schühle, Udo, Nature Astronomy, 8, 953

2023

1. SIR-HUXt—A Particle Filter Data Assimilation Scheme for CME Time-Elongation Profiles [3]
   Barnard, Luke, Owens, Mathew, Scott, Chris, Lang, Matthew & Lockwood, Mike, Space Weather, 21, e2023SW003487
2. Causal Analysis of Influence of the Solar Cycle and Latitudinal Solar-Wind Structure on Co-Rotation Forecasts [0]
   Chakraborty, Nachiketa, Turner, Harriet, Owens, Mathew & Lang, Matthew, Solar Physics, 298, 142
3. The Dynamic Evolution of Multipoint Interplanetary Coronal Mass Ejections Observed with BepiColombo, Tianwen-1, and MAVEN [9]
   Chi, Yutian, Shen, Chenglong, Liu, Junyan, Zhong, Zhihui, Owens, Mathew, Scott, Christopher, Barnard, Luke, Yu, Bingkun, Heyner, Daniel, Auster, Hans-Ulrich, Richter, Ingo, Wang, Yuming, Zhang, Tielong, Guo, Jingnan, Sánchez-Cano, Beatriz, Pan, Zonghao, Zou, Zhuxuan, Xu, Mengjiao, Cheng, Long, Su, Zhenpeng, Mao, Dongwei, Zhang, Zhiyong, Wang, Can, Wu, Zhiyong, Wang, Guoqiang, Xiao, Sudong, Liu, Kai, Hao, Xinjun, Li, Yiren, Chen, Manming & Lockwood, Mike, ApJ, 951, L14
4. Recalibration of the Sunspot-Number: Status Report [72]
   Clette, F., Lefèvre, L., Chatzistergos, T., Hayakawa, H., Carrasco, V. M. S., Arlt, R., Cliver, E. W., Dudok de Wit, T., Friedli, T. K., Karachik, N., Kopp, G., Lockwood, M., Mathieu, S., Muñoz-Jaramillo, A., Owens, M., Pesnell, D., Pevtsov, A., Svalgaard, L., Usoskin, I. G., van Driel-Gesztelyi, L. & Vaquero, J. M., Solar Physics, 298, 44
5. Sensitivity of Model Estimates of CME Propagation and Arrival Time to Inner Boundary Conditions [2]
   James, Lauren A., Scott, Christopher J., Barnard, Luke A., Owens, Mathew J., Lang, Matthew S. & Jones, Shannon R., Space Weather, 21, e2022SW003289
6. Universal Time Variations in the Magnetosphere and the Effect of CME Arrival Time: Analysis of the February 2022 Event that Led to the Loss of Starlink Satellites [14]
   Lockwood, M., Owens, M. J. & Barnard, L. A., Journal of Geophysical Research (Space Physics), 128, e2022JA031177
7. Annual Variations in the Near-Earth Solar Wind [2]
   Owens, Mathew J., Lockwood, Mike, Barnard, Luke A., Yardley, Stephanie L., Hietala, Heli, LaMoury, Adrian T. & Vuorinen, Laura, Solar Physics, 298, 111
8. Solar wind data assimilation in an operational context: Use of near-real-time data and the forecast value of an L5 monitor. [0]
   Turner, Harriet, Owens, Mathew J., Lang, Matthew Simon, Smith, Andrew W., Riley, Pete, Marsh, Mike S. & Gonzi, Siegfried, essoar.167839713
9. Solar Wind Data Assimilation in an Operational Context: Use of Near-Real-Time Data and the Forecast Value of an L5 Monitor [11]
   Turner, Harriet, Lang, Matthew, Owens, Mathew, Smith, Andy, Riley, Pete, Marsh, Mike & Gonzi, Siegfried, Space Weather, 21, e2023SW003457
10. Slow Solar Wind Connection Science during Solar Orbiter's First Close Perihelion Passage [15]
    Yardley, Stephanie L., Owen, Christopher J., Long, David M., Baker, Deborah, Brooks, David H., Polito, Vanessa, Green, Lucie M., Matthews, Sarah, Owens, Mathew, Lockwood, Mike, Stansby, David, James, Alexander W., Valori, Gherardo, Giunta, Alessandra, Janvier, Miho, Ngampoopun, Nawin, Mihailescu, Teodora, To, Andy S. H., van Driel-Gesztelyi, Lidia, Démoulin, Pascal, D'Amicis, Raffaella, French, Ryan J., Suen, Gabriel H. H., Rouillard, Alexis P., Pinto, Rui F., Réville, Victor, Watson, Christopher J., Walsh, Andrew P., De Groof, Anik, Williams, David R., Zouganelis, Ioannis, Müller, Daniel, Berghmans, David, Auchère, Frédéric, Harra, Louise, Schuehle, Udo, Barczynski, Krysztof, Buchlin, Éric, Cuadrado, Regina Aznar, Kraaikamp, Emil, Mandal, Sudip, Parenti, Susanna, Peter, Hardi, Rodriguez, Luciano, Schwanitz, Conrad, Smith, Phil, Teriaca, Luca, Verbeeck, Cis, Zhukov, Andrei N., De Pontieu, Bart, Horbury, Tim, Solanki, Sami K., del Toro Iniesta, Jose Carlos, Woch, Joachim, Gandorfer, Achim, Hirzberger, Johann, Súarez, David Orozco, Appourchaux, Thierry, Calchetti, Daniele, Sinjan, Jonas, Kahil, Fatima, Albert, Kinga, Volkmer, Reiner, Carlsson, Mats, Fludra, Andrzej, Hassler, Don, Caldwell, Martin, Fredvik, Terje, Grundy, Tim, Guest, Steve, Haberreiter, Margit, Leeks, Sarah, Pelouze, Gabriel, Plowman, Joseph, Schmutz, Werner, Sidher, Sunil, Thompson, William T., Louarn, Philippe & Federov, Andrei, ApJS, 267, 11
11. Tianwen-1 and MAVEN Observations of the Response of Mars to an Interplanetary Coronal Mass Ejection [9]
    Yu, Bingkun, Chi, Yutian, Owens, Mathew, Scott, Christopher J., Shen, Chenglong, Xue, Xianghui, Barnard, Luke, Zhang, Tielong, Heyner, Daniel, Auster, Hans-Ulrich, Richter, Ingo, Guo, Jingnan, Sánchez-Cano, Beatriz, Pan, Zonghao, Zou, Zhuxuan, Su, Zhenpeng, Wu, Zhiyong, Wang, Guoqiang, Xiao, Sudong, Liu, Kai, Hao, Xinjun, Li, Yiren, Chen, Manming, Dou, Xiankang & Lockwood, Mike, ApJ, 953, 105

2022

1. Quantifying the Uncertainty in CME Kinematics Derived From Geometric Modeling of Heliospheric Imager Data [8]
   Barnard, L., Owens, M. J., Scott, C. J., Lockwood, M., de Koning, C. A., Amerstorfer, T., Hinterreiter, J., Möstl, C., Davies, J. A. & Riley, P., Space Weather, 20, e2021SW002841
2. Predictive Capabilities of Corotating Interaction Regions Using STEREO and Wind In-Situ Observations [9]
   Chi, Yutian, Shen, Chenglong, Scott, Christopher, Xu, Mengjiao, Owens, Mathew, Wang, Yuming & Lockwood, Mike, Space Weather, 20, e2022SW003112
3. Toward GIC Forecasting: Statistical Downscaling of the Geomagnetic Field to Improve Geoelectric Field Forecasts [2]
   Haines, C., Owens, M. J., Barnard, L., Lockwood, M., Beggan, C. D., Thomson, A. W. P. & Rogers, N. C., Space Weather, 20, e2021SW002903
4. Sensitivity of model estimates of CME propagation and arrival time to inner boundary conditions [0]
   James, Lauren Ashleigh, Scott, Christopher John, Barnard, Luke, Owens, Mathew J., Lang, Matthew & Jones, Shannon Ruth, essoar.10512439
5. A statistical evaluation of ballistic backmapping for the slow solar wind: the interplay of solar wind acceleration and corotation [29]
   Macneil, Allan R., Owens, Mathew J., Finley, Adam J. & Matt, Sean P., MNRAS, 509, 2390
6. Solar Energetic-Particle Ground-Level Enhancements and the Solar Cycle [7]
   Owens, Mathew J., Barnard, Luke A., Pope, Benjamin J. S., Lockwood, Mike, Usoskin, Ilya & Asvestari, Eleanna, Solar Physics, 297, 105
7. Rate of Change of Large-Scale Solar-Wind Structure [9]
   Owens, Mathew J., Chakraborty, Nachiketa, Turner, Harriet, Lang, Matthew, Riley, Pete, Lockwood, Mike, Barnard, Luke A. & Chi, Yutian, Solar Physics, 297, 83
8. Evidence From Galactic Cosmic Rays That the Sun Has Likely Entered a Secular Minimum in Solar Activity [5]
   Rahmanifard, F., Jordan, A. P., de Wet, W. C., Schwadron, N. A., Wilson, J. K., Owens, M. J., Spence, H. E. & Riley, P., Space Weather, 20, e2021SW002796
9. Quantifying the Effect of ICME Removal and Observation Age for in Situ Solar Wind Data Assimilation [6]
   Turner, Harriet, Owens, Mathew, Lang, Matthew, Gonzi, Siegfried & Riley, Pete, Space Weather, 20, e2022SW003109
10. Quantifying the effect of ICME removal and observation age for in situ solar wind data assimilation [0]
    Turner, Harriet, Owens, Mathew J., Lang, Matthew Simon, Gonzi, Siegfried & Riley, Pete, essoar.10510972
11. Modelling cosmic radiation events in the tree-ring radiocarbon record [11]
    Zhang, Qingyuan, Sharma, Utkarsh, Dennis, Jordan A., Scifo, Andrea, Kuitems, Margot, Büntgen, Ulf, Owens, Mathew J., Dee, Michael W. & Pope, Benjamin J. S., Proceedings of the Royal Society of London Series A, 478, 20220497

2021

1. Using Gradient Boosting Regression to Improve Ambient Solar Wind Model Predictions [21]
   Bailey, R. L., Reiss, M. A., Arge, C. N., Möstl, C., Henney, C. J., Owens, M. J., Amerstorfer, U. V., Amerstorfer, T., Weiss, A. J. & Hinterreiter, J., Space Weather, 19, e02673
2. Quantifying the uncertainty in CME kinematics derived from geometric modelling of Heliospheric Imager data [0]
   Barnard, Luke, Owens, Mathew J., Scott, Christopher John, Lockwood, Michael, de Koning, Curt A., Amerstorfer, Tanja, Hinterreiter, Juergen, Moestl, Christian, Davies, Jackie A. & Riley, Pete, essoar.10507552
3. Constraining the Location of the Outer Boundary of Earth's Outer Radiation Belt [9]
   Bloch, T., Watt, C. E. J., Owens, M. J., Thompson, R. L. & Agiwal, O., Earth and Space Science, 8, e01610
4. Constraining the Location of the Outer Boundary of Earth's Outer Radiation Belt [0]
   Bloch, Téo, Watt, Clare E. J., Owens, Mathew J., Thompson, Rhys Leighton & Agiwal, Omakshi, essoar.10505703
5. Modeling the Observed Distortion of Multiple (Ghost) CME Fronts in STEREO Heliospheric Imagers [17]
   Chi, Yutian, Scott, Christopher, Shen, Chenglong, Barnard, Luke, Owens, Mathew, Xu, Mengjiao, Zhang, Jie, Jones, Shannon, Zhong, Zhihui, Yu, Bingkun, Lang, Matthew, Wang, Yuming & Lockwood, Mike, ApJ, 917, L16
6. In situ multi-spacecraft and remote imaging observations of the first CME detected by Solar Orbiter and BepiColombo [79]
   Davies, E. E., Möstl, C., Owens, M. J., Weiss, A. J., Amerstorfer, T., Hinterreiter, J., Bauer, M., Bailey, R. L., Reiss, M. A., Forsyth, R. J., Horbury, T. S., O'Brien, H., Evans, V., Angelini, V., Heyner, D., Richter, I., Auster, H.-U., Magnes, W., Baumjohann, W., Fischer, D., Barnes, D., Davies, J. A. & Harrison, R. A., A&A, 656, A2
7. Constraining Suprathermal Electron Evolution in a Parker Spiral Field With Cassini Observations [0]
   Graham, G. A., Bakrania, M. R., Rae, I. J., Owen, C. J., Walsh, A. P. & Owens, M. J., Journal of Geophysical Research (Space Physics), 126, e28669
8. Forecasting Occurrence and Intensity of Geomagnetic Activity With Pattern-Matching Approaches [8]
   Haines, C., Owens, M. J., Barnard, L., Lockwood, M., Ruffenach, A., Boykin, K. & McGranaghan, R., Space Weather, 19, e2020SW002624
9. Graphical evidence for the solar coronal structure during the Maunder minimum: comparative study of the total eclipse drawings in 1706 and 1715 [36]
   Hayakawa, Hisashi, Lockwood, Mike, Owens, Matthew J., Sôma, Mitsuru, Besser, Bruno P. & van Driel-Gesztelyi, Lidia, Journal of Space Weather and Space Climate, 11, 1
10. Multi-spacecraft study of the solar wind at solar minimum: Dependence on latitude and transient outflows [14]
    Laker, R., Horbury, T. S., Bale, S. D., Matteini, L., Woolley, T., Woodham, L. D., Stawarz, J. E., Davies, E. E., Eastwood, J. P., Owens, M. J., O'Brien, H., Evans, V., Angelini, V., Richter, I., Heyner, D., Owen, C. J., Louarn, P. & Fedorov, A., A&A, 652, A105
11. Improving Solar Wind Forecasting Using Data Assimilation [26]
    Lang, Matthew, Witherington, Jake, Turner, Harriet, Owens, Mathew J. & Riley, Pete, Space Weather, 19, e02698
12. Coronal Hole Detection and Open Magnetic Flux [46]
    Linker, Jon A., Heinemann, Stephan G., Temmer, Manuela, Owens, Mathew J., Caplan, Ronald M., Arge, Charles N., Asvestari, Eleanna, Delouille, Veronique, Downs, Cooper, Hofmeister, Stefan J., Jebaraj, Immanuel C., Madjarska, Maria S., Pinto, Rui F., Pomoell, Jens, Samara, Evangelia, Scolini, Camilla & Vršnak, Bojan, ApJ, 918, 21
13. Semi-annual, annual and Universal Time variations in the magnetosphere and in geomagnetic activity: 4. Polar Cap motions and origins of the Universal Time effect [15]
    Lockwood, Mike, Haines, Carl, Barnard, Luke A., Owens, Mathew J., Scott, Chris J., Chambodut, Aude & McWilliams, Kathryn A., Journal of Space Weather and Space Climate, 11, 15
14. Toward a Next Generation Particle Precipitation Model: Mesoscale Prediction Through Machine Learning (a Case Study and Framework for Progress) [21]
    McGranaghan, Ryan M., Ziegler, Jack, Bloch, Téo., Hatch, Spencer, Camporeale, Enrico, Lynch, Kristina, Owens, Mathew, Gjerloev, Jesper, Zhang, Binzheng & Skone, Susan, Space Weather, 19, e02684
15. Using in situ solar-wind observations to generate inner-boundary conditions to outer-heliosphere simulations - I. Dynamic time warping applied to synthetic observations [7]
    Owens, Mathew J. & Nichols, Jonathan D., MNRAS, 508, 2575
16. Extreme Space-Weather Events and the Solar Cycle [48]
    Owens, Mathew J., Lockwood, Mike, Barnard, Luke A., Scott, Chris J., Haines, Carl & Macneil, Allan, Solar Physics, 296, 82
17. The Influence of Spacecraft Latitudinal Offset on the Accuracy of Corotation Forecasts [11]
    Turner, Harriet, Owens, Mathew J., Lang, Matthew S. & Gonzi, Siegfried, Space Weather, 19, e02802

2020

1. Ensemble CME Modeling Constrained by Heliospheric Imager Observations [24]
   Barnard, L., Owens, M. J., Scott, C. J. & de Koning, C. A., AGU Advances, 1, e2020AV000214
2. Data-Driven Classification of Coronal Hole and Streamer Belt Solar Wind [13]
   Bloch, Téo, Watt, Clare, Owens, Mathew, McInnes, Leland & Macneil, Allan R., Solar Physics, 295, 41
3. Using the "Ghost Front" to Predict the Arrival Time and Speed of CMEs at Venus and Earth [13]
   Chi, Yutian, Scott, Christopher, Shen, Chenglong, Owens, Mathew, Lang, Matthew, Xu, Mengjiao, Zhong, Zhihui, Zhang, Jie, Wang, Yuming & Lockwood, Mike, ApJ, 899, 143
4. The Solar Wind Angular Momentum Flux as Observed by Parker Solar Probe [16]
   Finley, Adam J., Matt, Sean P., Réville, Victor, Pinto, Rui F., Owens, Mathew, Kasper, Justin C., Korreck, Kelly E., Case, A. W., Stevens, Michael L., Whittlesey, Phyllis, Larson, Davin & Livi, Roberto, ApJ, 902, L4
5. The Solar Corona during the Total Eclipse on 1806 June 16: Graphical Evidence of the Coronal Structure during the Dalton Minimum [23]
   Hayakawa, Hisashi, Owens, Mathew J., Lockwood, Michael & Sôma, Mitsuru, ApJ, 900, 114
6. Universal Time Variations in Space Weather [0]
   Lockwood, Michael, Owens, Mathew J., Haines, Carl, Barnard, Luke, Scott, Christopher John, Chambodut, Aude, McWilliams, Kathryn A. & Thomson, Alan W. P., essoar.10504343
7. Semi-annual, annual and Universal Time variations in the magnetosphere and in geomagnetic activity: 3. Modelling [18]
   Lockwood, Mike, Owens, Mathew J., Barnard, Luke A., Watt, Clare E., Scott, Chris J., Coxon, John C. & McWilliams, Kathryn A., Journal of Space Weather and Space Climate, 10, 61
8. Semi-annual, annual and Universal Time variations in the magnetosphere and in geomagnetic activity: 2. Response to solar wind power input and relationships with solar wind dynamic pressure and magnetospheric flux transport [27]
   Lockwood, Mike, McWilliams, Kathryn A., Owens, Mathew J., Barnard, Luke A., Watt, Clare E., Scott, Chris J., Macneil, Allan R. & Coxon, John C., Journal of Space Weather and Space Climate, 10, 30
9. Semi-annual, annual and Universal Time variations in the magnetosphere and in geomagnetic activity: 1. Geomagnetic data [51]
   Lockwood, Mike, Owens, Mathew J., Barnard, Luke A., Haines, Carl, Scott, Chris J., McWilliams, Kathryn A. & Coxon, John C., Journal of Space Weather and Space Climate, 10, 23
10. The evolution of inverted magnetic fields through the inner heliosphere [35]
    Macneil, Allan R., Owens, Mathew J., Wicks, Robert T., Lockwood, Mike, Bentley, Sarah N. & Lang, Matthew, MNRAS, 494, 3642
11. The Value of CME Arrival Time Forecasts for Space Weather Mitigation [17]
    Owens, M. J., Lockwood, M. & Barnard, L. A., Space Weather, 18, e02507
12. Signatures of Coronal Loop Opening via Interchange Reconnection in the Slow Solar Wind at 1 AU [22]
    Owens, Mathew, Lockwood, Mike, Macneil, Allan & Stansby, David, Solar Physics, 295, 37
13. A Computationally Efficient, Time-Dependent Model of the Solar Wind for Use as a Surrogate to Three-Dimensional Numerical Magnetohydrodynamic Simulations [59]
    Owens, Mathew, Lang, Matthew, Barnard, Luke, Riley, Pete, Ben-Nun, Michal, Scott, Chris J., Lockwood, Mike, Reiss, Martin A., Arge, Charles N. & Gonzi, Siegfried, Solar Physics, 295, 43
14. Coherence of Coronal Mass Ejections in Near-Earth Space [18]
    Owens, Mathew J., Solar Physics, 295, 148
15. Quantifying the latitudinal representivity of in situ solar wind observations [18]
    Owens, Mathew J., Lang, Matthew, Riley, Pete, Lockwood, Mike & Lawless, Amos S., Journal of Space Weather and Space Climate, 10, 8
16. Galactic Cosmic Radiation in the Interplanetary Space Through a Modern Secular Minimum [8]
    Rahmanifard, F., de Wet, W. C., Schwadron, N. A., Owens, M. J., Jordan, A. P., Wilson, J. K., Joyce, C. J., Spence, H. E., Smith, C. W. & Townsend, L. W., Space Weather, 18, e02428

2019

1. Extracting Inner-Heliosphere Solar Wind Speed Information From Heliospheric Imager Observations [9]
   Barnard, L. A., Owens, M. J., Scott, C. J. & Jones, S. R., Space Weather, 17, 925
2. Capturing Uncertainty in Magnetospheric Ultralow Frequency Wave Models [11]
   Bentley, S. N., Watt, Clare E. J., Rae, I. J., Owens, M. J., Murphy, K., Lockwood, M. & Sandhu, J. K., Space Weather, 17, 599
3. Direct Detection of Solar Angular Momentum Loss with the Wind Spacecraft [28]
   Finley, Adam J., Hewitt, Amy L., Matt, Sean P., Owens, Mathew, Pinto, Rui F. & Réville, Victor, ApJ, 885, L30
4. Solar Angular Momentum Loss over the Past Several Millennia [20]
   Finley, Adam J., Deshmukh, Siddhant, Matt, Sean P., Owens, Mathew & Wu, Chi-Ju, ApJ, 883, 67
5. A Variational Approach to Data Assimilation in the Solar Wind [45]
   Lang, Matthew & Owens, Mathew J., Space Weather, 17, 59
6. The Development of a Space Climatology: 2. The Distribution of Power Input Into the Magnetosphere on a 3-Hourly Timescale [15]
   Lockwood, Mike, Bentley, Sarah N., Owens, Mathew J., Barnard, Luke A., Scott, Chris J., Watt, Clare E., Allanson, Oliver & Freeman, Mervyn P., Space Weather, 17, 157
7. The Development of a Space Climatology: 1. Solar Wind Magnetosphere Coupling as a Function of Timescale and the Effect of Data Gaps [40]
   Lockwood, Mike, Bentley, Sarah N., Owens, Mathew J., Barnard, Luke A., Scott, Chris J., Watt, Clare E. & Allanson, Oliver, Space Weather, 17, 133
8. On the Origin of Ortho-Gardenhose Heliospheric Flux [16]
   Lockwood, Mike, Owens, Mathew J. & Macneil, Allan, Solar Physics, 294, 85
9. Time-of-day/time-of-year response functions of planetary geomagnetic indices [23]
   Lockwood, Mike, Chambodut, Aude, Finch, Ivan D., Barnard, Luke A., Owens, Mathew J. & Haines, Carl, Journal of Space Weather and Space Climate, 9, A20
10. The Development of a Space Climatology: 3. Models of the Evolution of Distributions of Space Weather Variables With Timescale [18]
    Lockwood, Mike, Bentley, Sarah N., Owens, Mathew J., Barnard, Luke A., Scott, Chris J., Watt, Clare E., Allanson, Oliver & Freeman, Mervyn P., Space Weather, 17, 180
11. Near-Earth Solar Wind Forecasting Using Corotation From L5: The Error Introduced By Heliographic Latitude Offset [20]
    Owens, M. J., Riley, P., Lang, M. & Lockwood, M., Space Weather, 17, 1105
12. Towards Construction of a Solar Wind "Reanalysis" Dataset: Application to the First Perihelion Pass of Parker Solar Probe [5]
    Owens, Mathew J., Lang, Matthew, Riley, Pete & Stansby, David, Solar Physics, 294, 83
13. Fine-scale structure in cometary dust tails I: Analysis of striae in Comet C/2006 P1 (McNaught) through temporal mapping [21]
    Price, Oliver, Jones, Geraint H., Morrill, Jeff, Owens, Mathew, Battams, Karl, Morgan, Huw, Drückmuller, Miloslav & Deiries, Sebastian, Icarus, 319, 540
14. Using Ghost Fronts Within STEREO Heliospheric Imager Data to Infer the Evolution in Longitudinal Structure of a Coronal Mass Ejection [11]
    Scott, C. J., Owens, M. J., de Koning, C. A., Barnard, L. A., Jones, S. R. & Wilkinson, J., Space Weather, 17, 539
15. Thunderstorm occurrence at ten sites across Great Britain over 1884─1993 [5]
    Valdivieso, Maria, Owens, Mathew J., Scott, Chris J., Hawkins, Ed, Burt, Stephen & Craig, Philip, Geoscience Data Journal, 6, 222

2018

1. What can the annual ¹⁰Be solar activity reconstructions tell us about historic space weather? [9]
   Barnard, Luke, McCracken, Ken G., Owens, Mat J. & Lockwood, Mike, Journal of Space Weather and Space Climate, 8, A23
2. ULF Wave Activity in the Magnetosphere: Resolving Solar Wind Interdependencies to Identify Driving Mechanisms [41]
   Bentley, S. N., Watt, C. E. J., Owens, M. J. & Rae, I. J., Journal of Geophysical Research (Space Physics), 123, 2745
3. A homogeneous aa index: 1. Secular variation [34]
   Lockwood, Mike, Chambodut, Aude, Barnard, Luke A., Owens, Mathew J., Clarke, Ellen & Mendel, Véronique, Journal of Space Weather and Space Climate, 8, A53
4. Space climate and space weather over the past 400 years: 2. Proxy indicators of geomagnetic storm and substorm occurrence [30]
   Lockwood, Mike, Owens, Mathew J., Barnard, Luke A., Scott, Chris J., Watt, Clare E. & Bentley, Sarah, Journal of Space Weather and Space Climate, 8, A12
5. Assessing the Quality of Models of the Ambient Solar Wind [52]
   MacNeice, P., Jian, L. K., Antiochos, S. K., Arge, C. N., Bussy-Virat, C. D., DeRosa, M. L., Jackson, B. V., Linker, J. A., Mikic, Z., Owens, M. J., Ridley, A. J., Riley, P., Savani, N. & Sokolov, I., Space Weather, 16, 1644
6. Ion Charge States and Potential Geoeffectiveness: The Role of Coronal Spectroscopy for Space-Weather Forecasting [8]
   Owens, M. J., Lockwood, M. & Barnard, L. A., Space Weather, 16, 694
7. Solar Wind and Heavy Ion Properties of Interplanetary Coronal Mass Ejections [31]
   Owens, M. J., Solar Physics, 293, 122
8. Generation of Inverted Heliospheric Magnetic Flux by Coronal Loop Opening and Slow Solar Wind Release [22]
   Owens, Mathew J., Lockwood, Mike, Barnard, Luke A. & MacNeil, Allan R., ApJ, 868, L14
9. Time-Window Approaches to Space-Weather Forecast Metrics: A Solar Wind Case Study [28]
   Owens, Mathew J., Space Weather, 16, 1847
10. Long-term variations in the heliosphere [2]
    Owens, Mathew J., Lockwood, Mike, Riley, Pete & Barnard, Luke, Long-term Datasets for the Understanding of Solar and Stellar Magnetic Cycles (Editors: Banerjee, D., Jiang, J., Kusano, K. & Solanki, S.), IAU Symposium, 340, p. 108
11. The Role of Empirical Space-Weather Models (in a World of Physics-Based Numerical Simulations) [3]
    Owens, Mathew J., Riley, Pete & Horbury, Tim, Space Weather of the Heliosphere: Processes and Forecasts (Editors: Foullon, Claire & Malandraki, Olga E.), IAU Symposium, 335, p. 254
12. The State of the Solar Wind, Magnetosphere, and Ionosphere During the Maunder Minimum [0]
    Riley, Pete, Lionello, Roberto, Linker, Jon A. & Owens, Mathew J., Long-term Datasets for the Understanding of Solar and Stellar Magnetic Cycles (Editors: Banerjee, D., Jiang, J., Kusano, K. & Solanki, S.), IAU Symposium, 340, p. 247

2017

1. Assessment of different sunspot number series using the cosmogenic isotope ⁴⁴Ti in meteorites [27]
   Asvestari, Eleanna, Usoskin, Ilya G., Kovaltsov, Gennady A., Owens, Mathew J., Krivova, Natalie A., Rubinetti, Sara & Taricco, Carla, MNRAS, 467, 1608
2. Testing the current paradigm for space weather prediction with heliospheric imagers [23]
   Barnard, Luke A., de Koning, Curt A., Scott, Christopher J., Owens, Mathew J., Wilkinson, Julia & Davies, Jackie A., Space Weather, 15, 782
3. Interplanetary magnetic field properties and variability near Mercury's orbit [55]
   James, Matthew K., Imber, Suzanne M., Bunce, Emma J., Yeoman, Timothy K., Lockwood, Mike, Owens, Mathew J. & Slavin, James A., Journal of Geophysical Research (Space Physics), 122, 7907
4. Tracking CMEs using data from the Solar Stormwatch project; observing deflections and other properties [8]
   Jones, Shannon R., Barnard, Luke A., Scott, Christopher J., Owens, Mathew J. & Wilkinson, Julia, Space Weather, 15, 1125
5. Data Assimilation in the Solar Wind: Challenges and First Results [35]
   Lang, Matthew, Browne, Philip, van Leeuwen, Peter Jan & Owens, Mathew, Space Weather, 15, 1490
6. The Open Flux Problem [189]
   Linker, J. A., Caplan, R. M., Downs, C., Riley, P., Mikic, Z., Lionello, R., Henney, C. J., Arge, C. N., Liu, Y., Derosa, M. L., Yeates, A. & Owens, M. J., ApJ, 848, 70
7. Coronal and heliospheric magnetic flux circulation and its relation to open solar flux evolution [8]
   Lockwood, Mike, Owens, Mathew J., Imber, Suzanne M., James, Matthew K., Bunce, Emma J. & Yeoman, Timothy K., Journal of Geophysical Research (Space Physics), 122, 5870
8. Coronal mass ejections are not coherent magnetohydrodynamic structures [80]
   Owens, M. J., Lockwood, M. & Barnard, L. A., Scientific Reports, 7, 4152
9. Probabilistic Solar Wind and Geomagnetic Forecasting Using an Analogue Ensemble or "Similar Day" Approach [34]
   Owens, M. J., Riley, P. & Horbury, T. S., Solar Physics, 292, 69
10. Global solar wind variations over the last four centuries [63]
    Owens, M. J., Lockwood, M. & Riley, P., Scientific Reports, 7, 41548
11. Sunward Strahl: A Method to Unambiguously Determine Open Solar Flux from In Situ Spacecraft Measurements Using Suprathermal Electron Data [36]
    Owens, M. J., Lockwood, M., Riley, P. & Linker, J., Journal of Geophysical Research (Space Physics), 122, 10,980
12. The Maunder minimum and the Little Ice Age: an update from recent reconstructions and climate simulations [72]
    Owens, Mathew J., Lockwood, Mike, Hawkins, Ed, Usoskin, Ilya, Jones, Gareth S., Barnard, Luke, Schurer, Andrew & Fasullo, John, Journal of Space Weather and Space Climate, 7, A33
13. Probabilistic Solar Wind Forecasting Using Large Ensembles of Near-Sun Conditions With a Simple One-Dimensional "Upwind" Scheme [40]
    Owens, Mathew J. & Riley, Pete, Space Weather, 15, 1461
14. Forecasting the properties of the solar wind using simple pattern recognition [46]
    Riley, Pete, Ben-Nun, Michal, Linker, Jon A., Owens, M. J. & Horbury, T. S., Space Weather, 15, 526
15. Decadal trends in the diurnal variation of galactic cosmic rays observed using neutron monitor data [10]
    Thomas, Simon, Owens, Mathew, Lockwood, Mike & Owen, Chris, Annales Geophysicae, 35, 825

2016

1. Improving solar wind persistence forecasts: Removing transient space weather events, and using observations away from the Sun-Earth line [20]
   Kohutova, Petra, Bocquet, François-Xavier, Henley, Edmund M. & Owens, Matthew J., Space Weather, 14, 802
2. Magnetic field inversions at 1 AU: Comparisons between mapping predictions and observations [3]
   Li, B., Cairns, Iver H., Owens, M. J., Neudegg, D., Lobzin, V. V. & Steward, G., Journal of Geophysical Research (Space Physics), 121, 10,728
3. Tests of Sunspot Number Sequences: 4. Discontinuities Around 1946 in Various Sunspot Number and Sunspot-Group-Number Reconstructions [10]
   Lockwood, M., Owens, M. J. & Barnard, L., Solar Physics, 291, 2843
4. Tests of Sunspot Number Sequences: 3. Effects of Regression Procedures on the Calibration of Historic Sunspot Data [32]
   Lockwood, M., Owens, M. J., Barnard, L. & Usoskin, I. G., Solar Physics, 291, 2829
5. Tests of Sunspot Number Sequences: 2. Using Geomagnetic and Auroral Data [22]
   Lockwood, M., Owens, M. J., Barnard, L., Scott, C. J., Usoskin, I. G. & Nevanlinna, H., Solar Physics, 291, 2811
6. Tests of Sunspot Number Sequences: 1. Using Ionosonde Data [17]
   Lockwood, M., Scott, C. J., Owens, M. J., Barnard, L. & Willis, D. M., Solar Physics, 291, 2785
7. Do the Legs of Magnetic Clouds Contain Twisted Flux-rope Magnetic Fields? [34]
   Owens, M. J., ApJ, 818, 197
8. Near-Earth heliospheric magnetic field intensity since 1750: 2. Cosmogenic radionuclide reconstructions [22]
   Owens, M. J., Cliver, E., McCracken, K. G., Beer, J., Barnard, L., Lockwood, M., Rouillard, A., Passos, D., Riley, P., Usoskin, I. & Wang, Y.-M., Journal of Geophysical Research (Space Physics), 121, 6064
9. Near-Earth heliospheric magnetic field intensity since 1750: 1. Sunspot and geomagnetic reconstructions [31]
   Owens, M. J., Cliver, E., McCracken, K. G., Beer, J., Barnard, L., Lockwood, M., Rouillard, A., Passos, D., Riley, P., Usoskin, I. & Wang, Y.-M., Journal of Geophysical Research (Space Physics), 121, 6048
10. A New Calibrated Sunspot Group Series Since 1749: Statistics of Active Day Fractions [110]
    Usoskin, I. G., Kovaltsov, G. A., Lockwood, M., Mursula, K., Owens, M. & Solanki, S. K., Solar Physics, 291, 2685

2015

1. Differences between the CME fronts tracked by an expert, an automated algorithm, and the Solar Stormwatch project [12]
   Barnard, L., Scott, C. J., Owens, M., Lockwood, M., Crothers, S. R., Davies, J. A. & Harrison, R. A., Space Weather, 13, 709
2. Lightning as a space-weather hazard: UK thunderstorm activity modulated by the passage of the heliospheric current sheet [21]
   Owens, M. J., Scott, C. J., Bennett, A. J., Thomas, S. R., Lockwood, M., Harrison, R. G. & Lam, M. M., Geophysical Research Letters, 42, 9624
3. The heliospheric Hale cycle over the last 300 years and its implications for a "lost" late 18th century solar cycle [20]
   Owens, Mathew J., McCracken, Ken G., Lockwood, Mike & Barnard, Luke, Journal of Space Weather and Space Climate, 5, A30
4. Inferring the Structure of the Solar Corona and Inner Heliosphere During the Maunder Minimum Using Global Thermodynamic Magnetohydrodynamic Simulations [74]
   Riley, Pete, Lionello, Roberto, Linker, Jon A., Cliver, Ed, Balogh, Andre, Beer, Jürg, Charbonneau, Paul, Crooker, Nancy, DeRosa, Marc, Lockwood, Mike, Owens, Matt, McCracken, Ken, Usoskin, Ilya & Koutchmy, S., ApJ, 802, 105
5. Statistical study of magnetic cloud erosion by magnetic reconnection [138]
   Ruffenach, A., Lavraud, B., Farrugia, C. J., Démoulin, P., Dasso, S., Owens, M. J., Sauvaud, J.-A., Rouillard, A. P., Lynnyk, A., Foullon, C., Savani, N. P., Luhmann, J. G. & Galvin, A. B., Journal of Geophysical Research (Space Physics), 120, 43
6. Near-Earth Cosmic Ray Decreases Associated with Remote Coronal Mass Ejections [17]
   Thomas, S. R., Owens, M. J., Lockwood, M., Barnard, L. & Scott, C. J., ApJ, 801, 5
7. Validation of a priori CME arrival predictions made using real-time heliospheric imager observations [31]
   Tucker-Hood, Kimberley, Scott, Chris, Owens, Mathew, Jackson, David, Barnard, Luke, Davies, Jackie A., Crothers, Steve, Lintott, Chris, Simpson, Robert, Savani, Neel P., Wilkinson, J., Harder, B., Eriksson, G. M., L Baeten, E. M. & Wan Wah, Lily Lau, Space Weather, 13, 35
8. The Maunder minimum (1645-1715) was indeed a grand minimum: A reassessment of multiple datasets [192]
   Usoskin, Ilya G., Arlt, Rainer, Asvestari, Eleanna, Hawkins, Ed, Käpylä, Maarit, Kovaltsov, Gennady A., Krivova, Natalie, Lockwood, Michael, Mursula, Kalevi, O'Reilly, Jezebel, Owens, Matthew, Scott, Chris J., Sokoloff, Dmitry D., Solanki, Sami K., Soon, Willie & Vaquero, José M., A&A, 581, A95

2014

1. The science case for an orbital mission to Uranus: Exploring the origins and evolution of ice giant planets [64]
   Arridge, C. S., Achilleos, N., Agarwal, J., Agnor, C. B., Ambrosi, R., André, N., Badman, S. V., Baines, K., Banfield, D., Barthélémy, M., Bisi, M. M., Blum, J., Bocanegra-Bahamon, T., Bonfond, B., Bracken, C., Brandt, P., Briand, C., Briois, C., Brooks, S., Castillo-Rogez, J., Cavalié, T., Christophe, B., Coates, A. J., Collinson, G., Cooper, J. F., Costa-Sitja, M., Courtin, R., Daglis, I. A., de Pater, I., Desai, M., Dirkx, D., Dougherty, M. K., Ebert, R. W., Filacchione, G., Fletcher, L. N., Fortney, J., Gerth, I., Grassi, D., Grodent, D., Grün, E., Gustin, J., Hedman, M., Helled, R., Henri, P., Hess, S., Hillier, J. K., Hofstadter, M. H., Holme, R., Horanyi, M., Hospodarsky, G., Hsu, S., Irwin, P., Jackman, C. M., Karatekin, O., Kempf, S., Khalisi, E., Konstantinidis, K., Krüger, H., Kurth, W. S., Labrianidis, C., Lainey, V., Lamy, L. L., Laneuville, M., Lucchesi, D., Luntzer, A., MacArthur, J., Maier, A., Masters, A., McKenna-Lawlor, S., Melin, H., Milillo, A., Moragas-Klostermeyer, G., Morschhauser, A., Moses, J. I., Mousis, O., Nettelmann, N., Neubauer, F. M., Nordheim, T., Noyelles, B., Orton, G. S., Owens, M., Peron, R., Plainaki, C., Postberg, F., Rambaux, N., Retherford, K., Reynaud, S., Roussos, E., Russell, C. T., Rymer, A. M., Sallantin, R., Sánchez-Lavega, A., Santolik, O., Saur, J., Sayanagi, K. M., Schenk, P., Schubert, J., Sergis, N., Sittler, E. C., Smith, A., Spahn, F., Srama, R., Stallard, T., Sterken, V., Sternovsky, Z., Tiscareno, M., Tobie, G., Tosi, F., Trieloff, M., Turrini, D., Turtle, E. P., Vinatier, S., Wilson, R. & Zarka, P., Planetary and Space Science, 104, 122
2. The Solar Stormwatch CME catalogue: Results from the first space weather citizen science project [25]
   Barnard, L., Scott, C., Owens, M., Lockwood, M., Tucker-Hood, K., Thomas, S., Crothers, S., Davies, J. A., Harrison, R., Lintott, C., Simpson, R., O'Donnell, J., Smith, A. M., Waterson, N., Bamford, S., Romeo, F., Kukula, M., Owens, B., Savani, N., Wilkinson, J., Baeten, E., Poeffel, L. & Harder, B., Space Weather, 12, 657
3. Comparison of interplanetary signatures of streamers and pseudostreamers [23]
   Crooker, N. U., McPherron, R. L. & Owens, M. J., Journal of Geophysical Research (Space Physics), 119, 4157
4. Reconstruction of geomagnetic activity and near-Earth interplanetary conditions over the past 167 yr - Part 3: Improved representation of solar cycle 11 [21]
   Lockwood, M., Nevanlinna, H., Vokhmyanin, M., Ponyavin, D., Sokolov, S., Barnard, L., Owens, M. J., Harrison, R. G., Rouillard, A. P. & Scott, C. J., Annales Geophysicae, 32, 367
5. Centennial variations in sunspot number, open solar flux and streamer belt width: 3. Modeling [40]
   Lockwood, M. & Owens, M. J., Journal of Geophysical Research (Space Physics), 119, 5193
6. Centennial variations in sunspot number, open solar flux, and streamer belt width: 2. Comparison with the geomagnetic data [24]
   Lockwood, M., Owens, M. J. & Barnard, L., Journal of Geophysical Research (Space Physics), 119, 5183
7. Centennial variations in sunspot number, open solar flux, and streamer belt width: 1. Correction of the sunspot number record since 1874 [51]
   Lockwood, M., Owens, M. J. & Barnard, L., Journal of Geophysical Research (Space Physics), 119, 5172
8. Implications of the Recent Low Solar Minimum for the Solar Wind during the Maunder Minimum [25]
   Lockwood, M. & Owens, M. J., ApJ, 781, L7
9. Reconstruction of geomagnetic activity and near-Earth interplanetary conditions over the past 167 yr - Part 4: Near-Earth solar wind speed, IMF, and open solar flux [60]
   Lockwood, M., Nevanlinna, H., Barnard, L., Owens, M. J., Harrison, R. G., Rouillard, A. P. & Scott, C. J., Annales Geophysicae, 32, 383
10. Solar cycle evolution of dipolar and pseudostreamer belts and their relation to the slow solar wind [45]
    Owens, M. J., Crooker, N. U. & Lockwood, M., Journal of Geophysical Research (Space Physics), 119, 36
11. Modulation of UK lightning by heliospheric magnetic field polarity [26]
    Owens, M. J., Scott, C. J., Lockwood, M., Barnard, L., Harrison, R. G., Nicoll, K., Watt, C. & Bennett, A. J., Environmental Research Letters, 9, 115009
12. Ensemble downscaling in coupled solar wind-magnetosphere modeling for space weather forecasting [28]
    Owens, M. J., Horbury, T. S., Wicks, R. T., McGregor, S. L., Savani, N. P. & Xiong, M., Space Weather, 12, 395
13. Evidence for solar wind modulation of lightning [44]
    Scott, C. J., Harrison, R. G., Owens, M. J., Lockwood, M. & Barnard, L., Environmental Research Letters, 9, 055004
14. The 22-Year Hale Cycle in Cosmic Ray Flux - Evidence for Direct Heliospheric Modulation [58]
    Thomas, S. R., Owens, M. J. & Lockwood, M., Solar Physics, 289, 407
15. Galactic Cosmic Ray Modulation near the Heliospheric Current Sheet [34]
    Thomas, S. R., Owens, M. J., Lockwood, M. & Scott, C. J., Solar Physics, 289, 2653

2013

1. Reconstruction of geomagnetic activity and near-Earth interplanetary conditions over the past 167 yr - Part 1: A new geomagnetic data composite [38]
   Lockwood, M., Barnard, L., Nevanlinna, H., Owens, M. J., Harrison, R. G., Rouillard, A. P. & Davis, C. J., Annales Geophysicae, 31, 1957
2. Comment on "What causes the flux excess in the heliospheric magnetic field?" by E. J. Smith [8]
   Lockwood, M. & Owens, M. J., Journal of Geophysical Research (Space Physics), 118, 1880
3. Reconstruction of geomagnetic activity and near-Earth interplanetary conditions over the past 167 yr - Part 2: A new reconstruction of the interplanetary magnetic field [32]
   Lockwood, M., Barnard, L., Nevanlinna, H., Owens, M. J., Harrison, R. G., Rouillard, A. P. & Davis, C. J., Annales Geophysicae, 31, 1979
4. Solar origin of heliospheric magnetic field inversions: Evidence for coronal loop opening within pseudostreamers [70]
   Owens, M. J., Crooker, N. U. & Lockwood, M., Journal of Geophysical Research (Space Physics), 118, 1868
5. A 27 day persistence model of near-Earth solar wind conditions: A long lead-time forecast and a benchmark for dynamical models [81]
   Owens, M. J., Challen, R., Methven, J., Henley, E. & Jackson, D. R., Space Weather, 11, 225
6. The Heliospheric Magnetic Field [243]
   Owens, Mathew J. & Forsyth, Robert J., Living Reviews in Solar Physics, 10, 5
7. Tracking the momentum flux of a CME and quantifying its influence on geomagnetically induced currents at Earth [16]
   Savani, N. P., Vourlidas, A., Pulkkinen, A., Nieves-Chinchilla, T., Lavraud, B. & Owens, M. J., Space Weather, 11, 245
8. Using Coordinated Observations in Polarized White Light and Faraday Rotation to Probe the Spatial Position and Magnetic Field of an Interplanetary Sheath [11]
   Xiong, Ming, Davies, Jackie A., Feng, Xueshang, Owens, Mathew J., Harrison, Richard A., Davis, Chris J. & Liu, Ying D., ApJ, 777, 32
9. Effects of Thomson-Scattering Geometry on White-Light Imaging of an Interplanetary Shock: Synthetic Observations from Forward Magnetohydrodynamic Modelling [17]
   Xiong, Ming, Davies, J. A., Bisi, M. M., Owens, M. J., Fallows, R. A. & Dorrian, G. D., Solar Physics, 285, 369

2012

1. Interchange Reconnection: Remote Sensing of Solar Signature and Role in Heliospheric Magnetic Flux Budget [26]
   Crooker, N. U. & Owens, M. J., Space Science Reviews, 172, 201
2. Predicting the arrival of high-speed solar wind streams at Earth using the STEREO Heliospheric Imagers [14]
   Davis, C. J., Davies, J. A., Owens, M. J. & Lockwood, M., Space Weather, 10, S02003
3. Solar cycle 24: what is the Sun up to? [18]
   Lockwood, Mike, Owens, Mat, Barnard, Luke, Davis, Chris & Thomas, Simon, Astronomy and Geophysics, 53, 3.09
4. Implications of Non-cylindrical Flux Ropes for Magnetic Cloud Reconstruction Techniques and the Interpretation of Double Flux Rope Events [33]
   Owens, M. J., Démoulin, P., Savani, N. P., Lavraud, B. & Ruffenach, A., Solar Physics, 278, 435
5. Cyclic loss of open solar flux since 1868: The link to heliospheric current sheet tilt and implications for the Maunder Minimum [64]
   Owens, M. J. & Lockwood, M., Journal of Geophysical Research (Space Physics), 117, A04102
6. Heliospheric modulation of galactic cosmic rays during grand solar minima: Past and future variations [66]
   Owens, M. J., Usoskin, I. & Lockwood, M., Geophysical Research Letters, 39, L19102
7. Multispacecraft observation of magnetic cloud erosion by magnetic reconnection during propagation [163]
   Ruffenach, A., Lavraud, B., Owens, M. J., Sauvaud, J.-A., Savani, N. P., Rouillard, A. P., Démoulin, P., Foullon, C., Opitz, A., Fedorov, A., Jacquey, C. J., Génot, V., Louarn, P., Luhmann, J. G., Russell, C. T., Farrugia, C. J. & Galvin, A. B., Journal of Geophysical Research (Space Physics), 117, A09101
8. Observational Tracking of the 2D Structure of Coronal Mass Ejections Between the Sun and 1 AU [25]
   Savani, N. P., Davies, J. A., Davis, C. J., Shiota, D., Rouillard, A. P., Owens, M. J., Kusano, K., Bothmer, V., Bamford, S. P., Lintott, C. J. & Smith, A., Solar Physics, 279, 517

2011

1. Predicting space climate change [75]
   Barnard, L., Lockwood, M., Hapgood, M. A., Owens, M. J., Davis, C. J. & Steinhilber, F., Geophysical Research Letters, 38, L16103
2. In Situ Signatures of Interchange Reconnection between Magnetic Clouds and Open Magnetic Fields: A Mechanism for the Erosion of Polar Coronal Holes? [16]
   Lavraud, Benoit, Owens, Mathew J. & Rouillard, Alexis P., Solar Physics, 270, 285
3. The persistence of solar activity indicators and the descent of the Sun into Maunder Minimum conditions [48]
   Lockwood, M., Owens, M. J., Barnard, L., Davis, C. J. & Steinhilber, F., Geophysical Research Letters, 38, L22105
4. Centennial changes in the heliospheric magnetic field and open solar flux: The consensus view from geomagnetic data and cosmogenic isotopes and its implications [45]
   Lockwood, M. & Owens, M. J., Journal of Geophysical Research (Space Physics), 116, A04109
5. The solar influence on the probability of relatively cold UK winters in the future [15]
   Lockwood, M., Harrison, R. G., Owens, M. J., Barnard, L., Woollings, T. & Steinhilber, F., Environmental Research Letters, 6, 034004
6. The distribution of solar wind speeds during solar minimum: Calibration for numerical solar wind modeling constraints on the source of the slow solar wind [84]
   McGregor, S. L., Hughes, W. J., Arge, C. N., Owens, M. J. & Odstrcil, D., Journal of Geophysical Research (Space Physics), 116, A03101
7. How is open solar magnetic flux lost over the solar cycle? [60]
   Owens, M. J., Crooker, N. U. & Lockwood, M., Journal of Geophysical Research (Space Physics), 116, A04111
8. Solar cycle 24: Implications for energetic particles and long-term space climate change [45]
   Owens, M. J., Lockwood, M., Barnard, L. & Davis, C. J., Geophysical Research Letters, 38, L19106
9. Magnetic Discontinuities in the Near-Earth Solar Wind: Evidence of In-Transit Turbulence or Remnants of Coronal Structure? [44]
   Owens, M. J., Wicks, R. T. & Horbury, T. S., Solar Physics, 269, 411
10. Evolution of Coronal Mass Ejection Morphology with Increasing Heliocentric Distance. I. Geometrical Analysis [52]
    Savani, N. P., Owens, M. J., Rouillard, A. P., Forsyth, R. J., Kusano, K., Shiota, D. & Kataoka, R., ApJ, 731, 109
11. Evolution of Coronal Mass Ejection Morphology with Increasing Heliocentric Distance. II. In Situ Observations [39]
    Savani, N. P., Owens, M. J., Rouillard, A. P., Forsyth, R. J., Kusano, K., Shiota, D., Kataoka, R., Jian, L. & Bothmer, V., ApJ, 732, 117
12. Forward modelling to determine the observational signatures of white-light imaging and interplanetary scintillation for the propagation of an interplanetary shock in the ecliptic plane [6]
    Xiong, Ming, Breen, A. R., Bisi, M. M., Owens, M. J., Fallows, R. A., Dorrian, G. D., Davies, J. A. & Thomasson, P., Journal of Atmospheric and Solar-Terrestrial Physics, 73, 1270

2010

1. From the Sun to the Earth: The 13 May 2005 Coronal Mass Ejection [75]
   Bisi, M. M., Breen, A. R., Jackson, B. V., Fallows, R. A., Walsh, A. P., Mikić, Z., Riley, P., Owen, C. J., Gonzalez-Esparza, A., Aguilar-Rodriguez, E., Morgan, H., Jensen, E. A., Wood, A. G., Owens, M. J., Tokumaru, M., Manoharan, P. K., Chashei, I. V., Giunta, A. S., Linker, J. A., Shishov, V. I., Tyul'bashev, S. A., Agalya, G., Glubokova, S. K., Hamilton, M. S., Fujiki, K., Hick, P. P., Clover, J. M. & Pintér, B., Solar Physics, 265, 49
2. Numerical simulation of the 12 May 1997 CME Event: The role of magnetic reconnection [51]
   Cohen, O., Attrill, G. D. R., Schwadron, N. A., Crooker, N. U., Owens, M. J., Downs, C. & Gombosi, T. I., Journal of Geophysical Research (Space Physics), 115, A10104
3. Suprathermal electron flux peaks at stream interfaces: Signature of solar wind dynamics or tracer for open magnetic flux transport on the Sun? [17]
   Crooker, N. U., Appleton, E. M., Schwadron, N. A. & Owens, M. J., Journal of Geophysical Research (Space Physics), 115, A11101
4. Cone model-based SEP event calculations for applications to multipoint observations [73]
   Luhmann, J. G., Ledvina, S. A., Odstrcil, D., Owens, M. J., Zhao, X.-P., Liu, Yang & Riley, Pete, Advances in Space Research, 46, 1
5. Probing the Large-scale Topology of the Heliospheric Magnetic Field using Jovian Electrons [7]
   Owens, M. J., Horbury, T. S. & Arge, C. N., ApJ, 714, 1617
6. Observational Evidence of a Coronal Mass Ejection Distortion Directly Attributable to a Structured Solar Wind [113]
   Savani, N. P., Owens, M. J., Rouillard, A. P., Forsyth, R. J. & Davies, J. A., ApJ, 714, L128
7. Galactic cosmic ray radiation hazard in the unusual extended solar minimum between solar cycles 23 and 24 [30]
   Schwadron, N. A., Boyd, A. J., Kozarev, K., Golightly, M., Spence, H., Townsend, L. W. & Owens, M., Space Weather, 8, S00E04
8. The Variation of Solar Wind Correlation Lengths Over Three Solar Cycles [45]
   Wicks, R. T., Owens, M. J. & Horbury, T. S., Solar Physics, 262, 191

2009

1. Excess open solar magnetic flux from satellite data: 2. A survey of kinematic effects [71]
   Lockwood, M., Owens, M. & Rouillard, A. P., Journal of Geophysical Research (Space Physics), 114, A11104
2. Excess open solar magnetic flux from satellite data: 1. Analysis of the third perihelion Ulysses pass [38]
   Lockwood, M., Owens, M. & Rouillard, A. P., Journal of Geophysical Research (Space Physics), 114, A11103
3. The Accuracy of Using the Ulysses Result of the Spatial Invariance of the Radial Heliospheric Field to Compute the Open Solar Flux [32]
   Lockwood, M. & Owens, M., ApJ, 701, 964
4. The Formation of Large-Scale Current Sheets within Magnetic Clouds [29]
   Owens, M. J., Solar Physics, 260, 207
5. The expected imprint of flux rope geometry on suprathermal electrons in magnetic clouds [4]
   Owens, M. J., Crooker, N. U. & Horbury, T. S., Annales Geophysicae, 27, 4057
6. The radial width of a Coronal Mass Ejection between 0.1 and 0.4 AU estimated from the Heliospheric Imager on STEREO [45]
   Savani, N. P., Rouillard, A. P., Davies, J. A., Owens, M. J., Forsyth, R. J., Davis, C. J. & Harrison, R. A., Annales Geophysicae, 27, 4349

2008

1. Ambient solar wind's effect on ICME transit times [39]
   Case, A. W., Spence, H. E., Owens, M. J., Riley, P. & Odstrcil, D., Geophysical Research Letters, 35, L15105
2. Analysis of the magnetic field discontinuity at the potential field source surface and Schatten Current Sheet interface in the Wang-Sheeley-Arge model [57]
   McGregor, S. L., Hughes, W. J., Arge, C. N. & Owens, M. J., Journal of Geophysical Research (Space Physics), 113, A08112
3. Combining remote and in situ observations of coronal mass ejections to better constrain magnetic cloud reconstruction [29]
   Owens, M. J., Journal of Geophysical Research (Space Physics), 113, A12102
4. Suprathermal electron evolution in a Parker spiral magnetic field [38]
   Owens, M. J., Crooker, N. U. & Schwadron, N. A., Journal of Geophysical Research (Space Physics), 113, A11104
5. Conservation of open solar magnetic flux and the floor in the heliospheric magnetic field [63]
   Owens, M. J., Crooker, N. U., Schwadron, N. A., Horbury, T. S., Yashiro, S., Xie, H., St. Cyr, O. C. & Gopalswamy, N., Geophysical Research Letters, 35, L20108
6. Metrics for solar wind prediction models: Comparison of empirical, hybrid, and physics-based schemes with 8 years of L1 observations [122]
   Owens, M. J., Spence, H. E., McGregor, S., Hughes, W. J., Quinn, J. M., Arge, C. N., Riley, P., Linker, J. & Odstrcil, D., Space Weather, 6, S08001
7. Estimating total heliospheric magnetic flux from single-point in situ measurements [68]
   Owens, M. J., Arge, C. N., Crooker, N. U., Schwadron, N. A. & Horbury, T. S., Journal of Geophysical Research (Space Physics), 113, A12103
8. The Heliospheric Magnetic Field over the Hale Cycle [17]
   Schwadron, N. A., Owens, M. & Crooker, N. U., Astrophysics and Space Sciences Transactions, 4, 19

2007

1. Predicting magnetospheric dynamics with a coupled Sun-to-Earth model: Challenges and first results [16]
   Merkin, V. G., Owens, M. J., Spence, H. E., Hughes, W. J. & Quinn, J. M., Space Weather, 5, S12001
2. Reconciling the electron counterstreaming and dropout occurrence rates with the heliospheric flux budget [43]
   Owens, M. J. & Crooker, N. U., Journal of Geophysical Research (Space Physics), 112, A06106
3. Role of coronal mass ejections in the heliospheric Hale cycle [45]
   Owens, M. J., Schwadron, N. A., Crooker, N. U., Hughes, W. J. & Spence, H. E., Geophysical Research Letters, 34, L06104

2006

1. Magnetic cloud distortion resulting from propagation through a structured solar wind: Models and observations [49]
   Owens, M. J., Journal of Geophysical Research (Space Physics), 111, A12109
2. Coronal mass ejections and magnetic flux buildup in the heliosphere [115]
   Owens, M. J. & Crooker, N. U., Journal of Geophysical Research (Space Physics), 111, A10104
3. A kinematically distorted flux rope model for magnetic clouds [80]
   Owens, M. J., Merkin, V. G. & Riley, P., Journal of Geophysical Research (Space Physics), 111, A03104

2005

1. An event-based approach to validating solar wind speed predictions: High-speed enhancements in the Wang-Sheeley-Arge model [93]
   Owens, M. J., Arge, C. N., Spence, H. E. & Pembroke, A., Journal of Geophysical Research (Space Physics), 110, A12105
2. Characteristic magnetic field and speed properties of interplanetary coronal mass ejections and their sheath regions [95]
   Owens, M. J., Cargill, P. J., Pagel, C., Siscoe, G. L. & Crooker, N. U., Journal of Geophysical Research (Space Physics), 110, A01105
3. Understanding electron heat flux signatures in the solar wind [46]
   Pagel, C., Crooker, N. U., Larson, D. E., Kahler, S. W. & Owens, M. J., Journal of Geophysical Research (Space Physics), 110, A01103

2004

1. On the evolution of the solar wind between 1 and 5 AU at the time of the Cassini Jupiter flyby: Multispacecraft observations of interplanetary coronal mass ejections including the formation of a merged interaction region [24]
   Hanlon, P. G., Dougherty, M. K., Forsyth, R. J., Owens, M. J., Hansen, K. C., Tóth, G., Crary, F. J. & Young, D. T., Journal of Geophysical Research (Space Physics), 109, A09S03
2. Non-radial solar wind flows induced by the motion of interplanetary coronal mass ejections [48]
   Owens, M. & Cargill, P., Annales Geophysicae, 22, 4397
3. Predictions of the arrival time of Coronal Mass Ejections at 1AU: an analysis of the causes of errors [70]
   Owens, M. & Cargill, P., Annales Geophysicae, 22, 661

2002

1. Correlation of magnetic field intensities and solar wind speeds of events observed by ACE [13]
   Owens, Mathew J. & Cargill, Peter J., Journal of Geophysical Research (Space Physics), 107, 1050