Ian Hewins scite author profile

Although listed as one of the most significant events of the last 80 years, the space weather storm of late May 1967 has been of mostly fading academic interest. The storm made its initial mark with a colossal solar radio burst causing radio interference at frequencies between 0.01 and 9.0 GHz and near‐simultaneous disruptions of dayside radio communication by intense fluxes of ionizing solar X‐rays. Aspects of military control and communication were immediately challenged. Within hours a solar energetic particle event disrupted high‐frequency communication in the polar cap. Subsequently, record‐setting geomagnetic and ionospheric storms compounded the disruptions. We explain how the May 1967 storm was nearly one with ultimate societal impact, were it not for the nascent efforts of the United States Air Force in expanding its terrestrial weather monitoring‐analysis‐warning‐prediction efforts into the realm of space weather forecasting. An important and long‐lasting outcome of this storm was more formal Department of Defense‐support for current‐day space weather forecasting. This story develops during the rapid rise of solar cycle 20 and the intense Cold War in the latter half of the twentieth century. We detail the events of late May 1967 in the intersecting categories of solar‐terrestrial interactions and the political‐military backdrop of the Cold War. This was one of the “Great Storms” of the twentieth century, despite the apparent lack of large geomagnetically induced currents. Radio disruptions like those discussed here warrant the attention of today's radio‐reliant, cellular‐phone and satellite‐navigation enabled world.

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The Evolution of Coronal Holes over Three Solar Cycles Using the McIntosh Archive

Hewins

Gibson

Webb

et al. 2020

Sol Phys

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Global Solar Magnetic Field Evolution Over 4 Solar Cycles: Use of the McIntosh Archive

Webb

Gibson

Hewins

et al. 2018

Front. Astron. Space Sci.

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The McIntosh Archive consists of a set of hand-drawn solar Carrington maps created by Patrick McIntosh from 1964 to 2009. McIntosh used mainly Hα, He-I 10830 Å and photospheric magnetic measurements from both ground-based and NASA satellite observations. With these he traced polarity inversion lines (PILs), filaments, sunspots and plage and, later, coronal holes over a ∼45-year period. This yielded a unique record of synoptic maps of features associated with the large-scale solar magnetic field over four complete solar cycles. We first discuss how these and similar maps have been used in the past to investigate long-term solar variability. Then we describe our work in preserving and digitizing this archive, developing a digital, searchable format, and creating a website and an archival repository at NOAA's National Centers for Environmental Information (NCEI). Next we show examples of how the data base can be utilized for scientific applications. Finally, we present some preliminary results on the solar-cycle evolution of the solar magnetic field, including the polar field reversal process, the evolution of active longitudes, and the role of differential solar rotation.

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Beyond sunspots: Studies using the McIntosh Archive of global solar magnetic field patterns

Gibson¹,

Webb²,

Hewins³

et al. 2016

Proc. IAU

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In 1964 (Solar Cycle 20; SC 20), Patrick McIntosh began creating hand-drawn synoptic maps of solar magnetic features, based on Hα images. These synoptic maps were unique in that they traced magnetic polarity inversion lines, and connected widely separated filaments, fibril patterns, and plage corridors to reveal the large-scale organization of the solar magnetic field. Coronal hole boundaries were later added to the maps, which were produced, more or less continuously, into 2009 (i.e., the start of SC 24). The result was a record of ∼ 45 years (∼ 570 Carrington rotations), or nearly four complete solar cycles of synoptic maps. We are currently scanning, digitizing and archiving these maps, with the final, searchable versions publicly available at NOAA's National Centers for Environmental Information. In this paper we present preliminary scientific studies using the archived maps from SC 23. We show the global evolution of closed magnetic structures (e.g., sunspots, plage, and filaments) in relation to open magnetic structures (e.g., coronal holes), and examine how both relate to the shifting patterns of large-scale positive and negative polarity regions.

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Ian Hewins

The May 1967 great storm and radio disruption event: Extreme space weather and extraordinary responses

The Evolution of Coronal Holes over Three Solar Cycles Using the McIntosh Archive

Global Solar Magnetic Field Evolution Over 4 Solar Cycles: Use of the McIntosh Archive

Beyond sunspots: Studies using the McIntosh Archive of global solar magnetic field patterns

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