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Title: High-latitude Conic Current Sheets in the Solar Wind

Journal Article · · Astrophysical Journal
; ;  [1];  [2]; ;  [3]; ;  [4]; ;  [5]
  1. Pushkov Institute of Terrestrial Magnetism, Ionosphere and Radio Wave Propagation of the Russian Academy of Sciences (IZMIRAN), Moscow (Russian Federation)
  2. Scobeltsyn Nuclear Physics Institute of Lomonosov Moscow State University, Moscow (Russian Federation)
  3. Space Research Centre of the Polish Academy of Sciences (CBK PAN), Warsaw (Poland)
  4. Institute for Space-Earth Environmental Research, Nagoya University (Japan)
  5. Space Research Centre of the Polish Academy of Sciences (CBK), Warsaw (Poland)
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We provide observational evidence for the existence of large-scale cylindrical (or conic-like) current sheets (CCSs) at high heliolatitudes. Long-lived CCSs were detected by Ulysses during its passages over the South Solar Pole in 1994 and 2007. The characteristic scale of these tornado-like structures is several times less than a typical width of coronal holes within which the CCSs are observed. CCS crossings are characterized by a dramatic decrease in the solar wind speed and plasma beta typical for predicted profiles of CCSs. Ulysses crossed the same CCS at different heliolatitudes at 2–3 au several times in 1994, as the CCS was declined from the rotation axis and corotated with the Sun. In 2007, a CCS was detected directly over the South Pole, and its structure was strongly highlighted by the interaction with comet McNaught. Restorations of solar coronal magnetic field lines reveal the occurrence of conic-like magnetic separators over the solar poles in both 1994 and 2007. Such separators exist only during solar minima. Interplanetary scintillation data analysis confirms the presence of long-lived low-speed regions surrounded by the typical polar high-speed solar wind in solar minima. Energetic particle flux enhancements up to several MeV/ nuc are observed at edges of the CCSs. We built simple MHD models of a CCS to illustrate its key features. The CCSs may be formed as a result of nonaxiality of the solar rotation axis and magnetic axis, as predicted by the Fisk–Parker hybrid heliospheric magnetic field model in the modification of Burger and coworkers.

OSTI ID:
22663803
Journal Information:
Astrophysical Journal, Vol. 836, Issue 1; Other Information: Country of input: International Atomic Energy Agency (IAEA); ISSN 0004-637X
Country of Publication:
United States
Language:
English

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Related Subjects

79 ASTROPHYSICS
COSMOLOGY AND ASTRONOMY
COMETS
DATA ANALYSIS
HELIOSPHERE
INTERACTIONS
MAGNETIC FIELDS
MAGNETIC SEPARATORS
MAGNETOHYDRODYNAMICS
MEV RANGE
MODIFICATIONS
PLASMA
ROTATION
SCINTILLATIONS
SOLAR WIND
VELOCITY