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Long-term evolution of a high-latitude active region

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Abstract

We describe the decay phase of one of the largest active regions of solar cycle 22 that developed by the end of June 1987. The center of both polarities of the magnetic fields of the region systematically shifted north and poleward throughout the decay phase. In addition, a substantial fraction of the trailing magnetic fields migrated equatorward and south of the leading, negative fields. The result of this migration was the apparent rotation of the magnetic axis of the region such that a majority of the leading polarity advanced poleward at a faster rate than the trailing polarity. As a consequence, this region could not contribute to the anticipated reversal of the polar field.

The relative motions of the sunspots in this active region were also noteworthy. The largest, leading, negative polarity sunspot at N24 exhibited a slightly slower-than-average solar rotation rate equivalent to the mean differential rotation rate at N25. In contrast, the westernmost, leading, negative polarity sunspot at N21 consistently advanced further westward at a mean rate of 0.13 km s−1 with respect to the mean differential rotation rate at its latitude. These sunspot motions and the pattern of evolution of the magnetic fields of the whole region constitute evidence of the existence of a large-scale velocity field within the active region.

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Authors and Affiliations

  1. Big Bear Solar Observatory of the California Institute of Technology, 92314, Big Bear City, CA, U.S.A.

    William H. Marquette

  2. Solar Astronomy 264-33, California Institute of Technology, 91125, Pasadena, CA, U.S.A.

    Sara F. Martin

Authors
  1. William H. Marquette
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  2. Sara F. Martin
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Solar Cycle Workshop Paper.

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Marquette, W.H., Martin, S.F. Long-term evolution of a high-latitude active region. Sol Phys 117, 227–241 (1988). https://doi.org/10.1007/BF00147245

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  • DOI: https://doi.org/10.1007/BF00147245

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