Serge Koutchmy scite author profile

Observations of the Sun's corona during the space era have led to a picture of relatively constant, but cyclically varying solar output and structure. Longer-term, more indirect measurements, such as from 10 Be, coupled by other albeit less reliable contemporaneous reports, however, suggest periods of significant departure from this standard. The Maunder Minimum was one such epoch where:(1) sunspots effectively disappeared for long intervals during a 70 yr period; (2) eclipse observations suggested the distinct lack of a visible K-corona but possible appearance of the F-corona; (3) reports of aurora were notably reduced; and (4) cosmic ray intensities at Earth were inferred to be substantially higher. Using a global thermodynamic MHD model, we have constructed a range of possible coronal configurations for the Maunder Minimum period and compared their predictions with these limited observational constraints. We conclude that the most likely state of the corona during-at least-the later portion of the Maunder Minimum was not merely that of the 2008/2009 solar minimum, as has been suggested recently, but rather a state devoid of any large-scale structure, driven by a photospheric field composed of only ephemeral regions, and likely substantially reduced in strength. Moreover, we suggest that the Sun evolved from a 2008/2009-like configuration at the start of the Maunder Minimum toward an ephemeral-only configuration by the end of it, supporting a prediction that we may be on the cusp of a new grand solar minimum.

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White-Light Coronal Dark Threads and Density Fine Structure

November¹,

Koutchmy²

1996

ApJ

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X-Ray Jet Dynamics in a Polar Coronal Hole Region

2009

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New XRT observations of the north polar region taken from the X-ray Telescope (XRT) of the Hinode (Solar-B) spacecraft are used to analyze several time sequences showing small loop brightenings with a long ray above. We focus on the recorded transverse displacement of the jet and discuss scenarios to explain the main features of the events: the relationship with the expected surface magnetism, the rapid and sudden radial motion, and possibly the heating, based on the assumption that the jet occurs above a null point of the coronal magnetic field. We conclude that 3-D reconnection models are needed to explain the observational details of these events.Comment: 11 pages 8 figure

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The Solar Eclipse of 2006 and the Origin of Raylike Features in the White‐Light Corona

Wang

Biersteker

Sheeley

et al. 2007

ApJ

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Coronal physics from eclipse observations

Koutchmy

1994

Advances in Space Research

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The F-corona and the Circum-Solar Dust Evidences and Properties [G. Nikolsky Memorial Lecture]

Koutchmy¹,

Lamy²

1985

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Oscillations and running waves observed in sunspots

Christopoulou

Georgakilas

Koutchmy

2001

A&A

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Abstract. We continue our study of waves and oscillations observed in sunspots using an improved method for enhancing the waves, giving the opportunity to identify them and determine their properties in far Hα wings. We found that the running penumbral waves are observable at least up to the formation height of the Hα ± 0.5Å line, but not in the Hα ± 0.75Å or the Fe I ± 0.12Å. We found a time lag between the waves in the blue and the red wing of the Hα line corresponding to a phase shift of 180• , that indicates a pure Doppler shift of the line. There is a lag in the propagation of the waves seen at Hα center and at Hα wings. Also there is a lag in the variation of the umbral oscillations as they are observed from lower to higher atmospheric layers. The correlation between umbral oscillations at various atmospheric heights and running penumbral waves strongly indicates that the latter are excited by photospheric umbral oscillations and not the chromospheric ones. We found a new category of photospheric waves that originate at approximately 0.7 of the distance between the umbra and the penumbra boundary and propagate beyond the outer penumbra boundary with a velocity of the order of 3-4 km s −1 . Further, we found 3 min penumbral oscillations apparent in the inner penumbra at lower chromospheric layers (far Hα wings).

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Christopoulou¹,

Georgakilas²,

Koutchmy

2001

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Serge Koutchmy

Inferring the Structure of the Solar Corona and Inner Heliosphere During the Maunder Minimum Using Global Thermodynamic Magnetohydrodynamic Simulations

White-Light Coronal Dark Threads and Density Fine Structure

X-Ray Jet Dynamics in a Polar Coronal Hole Region

The Solar Eclipse of 2006 and the Origin of Raylike Features in the White‐Light Corona

Coronal physics from eclipse observations

The F-corona and the Circum-Solar Dust Evidences and Properties [G. Nikolsky Memorial Lecture]

Oscillations and running waves observed in sunspots

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