THE TIME-DEPENDENT CHEMISTRY OF COMETARY DEBRIS IN THE SOLAR CORONA

Recent improvements in solar observations have greatly progressed the study of sungrazing comets. They can now be imaged along the entirety of their perihelion passage through the solar atmosphere, revealing details of their composition and structure not measurable through previous observations in the less volatile region of the orbit further from the solar surface. Such comets are also unique probes of the solar atmosphere. The debris deposited by sungrazers is rapidly ionized and subsequently influenced by the ambient magnetic field. Measuring the spectral signature of the deposited material highlights the topology of the magnetic field and can reveal plasma parameters such as the electron temperature and density. Recovering these variables from the observable data requires a model of the interaction of the cometary species with the atmosphere through which they pass. The present paper offers such a model by considering the time-dependent chemistry of sublimated cometary species as they interact with the solar radiation field and coronal plasma. We expand on a previous simplified model by considering the fully time-dependent solutions of the emitting species' densities. To compare with observations, we consider a spherically symmetric expansion of the sublimated material into the corona and convert the time-dependent ion densities to radial profiles. Using emissivities from the CHIANTI database and plasma parameters derived from a magnetohydrodynamic simulation leads to a spatially dependent emission spectrum that can be directly compared with observations. We find our simulated spectra to be consistent with observation.

[1]  F. Auchère,et al.  The SWAP EUV Imaging Telescope Part I: Instrument Overview and Pre-Flight Testing , 2012, 1208.4631.

[2]  H. Mason,et al.  CHIANTI - an atomic database for emission lines - I. Wavelengths greater than 50 Å , 1997 .

[3]  K. Strauch,et al.  PROBA2: Mission and Spacecraft Overview , 2013 .

[4]  T. Kosugi,et al.  The Hinode (Solar-B) Mission: An Overview , 2007 .

[5]  Antoine Llebaria,et al.  PHOTOMETRIC STUDY OF THE KREUTZ COMETS OBSERVED BY SOHO FROM 1996 TO 2005 , 2010 .

[6]  M. J. Mumma,et al.  Discovery of X-ray and Extreme Ultraviolet Emission from Comet C/Hyakutake 1996 B2 , 1996, Science.

[7]  A. Delsemme The chemistry of comets , 1988, Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences.

[8]  E. Landi,et al.  A NEW APPROACH TO ANALYZING SOLAR CORONAL SPECTRA AND UPDATED COLLISIONAL IONIZATION EQUILIBRIUM CALCULATIONS. II. UPDATED IONIZATION RATE COEFFICIENTS , 2008, 0805.3302.

[9]  M. Barbera,et al.  The X-Ray Telescope (XRT) for the Hinode Mission , 2007 .

[10]  D. A. Biesecker,et al.  Sungrazing Comets Discovered with the SOHO/LASCO Coronagraphs 1996–1998 , 1999 .

[11]  Peter R. Young,et al.  CHIANTI - an atomic database for emission lines. IX. Ionization rates, recombination rates, ionization equilibria for the elements hydrogen through zinc and updated atomic data , 2009 .

[12]  Leo Haser,et al.  Distribution d’intensité dans la tête d’une comète , 1957, Bulletin de la Classe des sciences.

[13]  Konrad Dennerl,et al.  X-ray Emissions from Comets Detected in the Röntgen X-ray Satellite All-Sky Survey , 1997 .

[14]  E. Christian,et al.  The STEREO Mission: An Introduction , 2008 .

[15]  Regina Soufli,et al.  Initial Calibration of the Atmospheric Imaging Assembly (AIA) on the Solar Dynamics Observatory (SDO) , 2012 .

[16]  P. Hays,et al.  Atmospheric properties from the inversion of planetary occultation data , 1968 .

[17]  V. Krasnopolsky ON THE NATURE OF SOFT X-RAY RADIATION IN COMETS , 1997 .

[18]  J C Brown,et al.  Destruction of Sun-Grazing Comet C/2011 N3 (SOHO) Within the Low Solar Corona , 2012, Science.

[19]  C. J. Wolfson,et al.  The Atmospheric Imaging Assembly (AIA) on the Solar Dynamics Observatory (SDO) , 2011 .

[20]  Jean-Pierre Wuelser,et al.  EUVI: the STEREO-SECCHI extreme ultraviolet imager , 2004, SPIE Optics + Photonics.

[21]  Pascal Saint-Hilaire,et al.  Probing the Solar Magnetic Field with a Sun-Grazing Comet , 2013, Science.

[22]  Paul Bryans,et al.  THE EXTREME-ULTRAVIOLET EMISSION FROM SUN-GRAZING COMETS , 2012, 1209.5708.

[23]  P. Lamy,et al.  The Large Angle Spectroscopic Coronagraph (LASCO) , 1995 .

[24]  W. Pesnell,et al.  The Solar Dynamics Observatory (SDO) , 2012 .

[25]  Pascal Saint-Hilaire,et al.  EXTREME-ULTRAVIOLET AND X-RAY OBSERVATIONS OF COMET LOVEJOY (C/2011 W3) IN THE LOWER CORONA , 2013, 1304.1544.