2022
DOI: 10.1029/2021ja029799
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Solar Wind Velocities at Comets C/2011 L4 Pan‐STARRS and C/2013 R1 Lovejoy Derived Using a New Image Analysis Technique

Abstract: The ion tails of bright comets have long been considered as a natural tracers of the solar wind (SW) near these objects. Studies of comets and their ion tails allow inexpensive monitoring of key SW structures in the inner heliosphere, much of which is otherwise only accessible by in situ SW spacecraft measurements. Here, we present a novel technique to mine the rich archive of amateur, professional and spacecraft observations of cometary ion tails. To demonstrate this, we focus on Near‐Sun comet C/2011 L4 (Pan… Show more

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Cited by 3 publications
(7 citation statements)
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“…However, the given speeds of 600 km s −1 to which particles are supposedly accelerated is far larger than the values for the solar wind speed given around the comet from this model. The interpretation of the clumpy tail as an ion tail given by Ramanjooloo (2015) and Ramanjooloo and Jones (2022) was used to derive solar wind speeds that lay between 200 and 400 km s −1 , which is much more in agreement with the CORHEL simulated results. Before a conclusion can be drawn on the most likely interpretation, the orientation of the short straight tail must also be considered, as the interpretation of both tails depends somewhat on each other; they of course cannot both be ion tails.…”
Section: Hvec Tail or Ion Tail?supporting
confidence: 59%
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“…However, the given speeds of 600 km s −1 to which particles are supposedly accelerated is far larger than the values for the solar wind speed given around the comet from this model. The interpretation of the clumpy tail as an ion tail given by Ramanjooloo (2015) and Ramanjooloo and Jones (2022) was used to derive solar wind speeds that lay between 200 and 400 km s −1 , which is much more in agreement with the CORHEL simulated results. Before a conclusion can be drawn on the most likely interpretation, the orientation of the short straight tail must also be considered, as the interpretation of both tails depends somewhat on each other; they of course cannot both be ion tails.…”
Section: Hvec Tail or Ion Tail?supporting
confidence: 59%
“…From all the evidence in the temporal maps of both the clumpy tail and short straight tail, and the CORHEL simulation results, the conclusion by Ramanjooloo (2015), Ramanjooloo and Jones (2022) by far seems the most probable. This interpretation gives the clumpy tail as a disparate ion tail, with the short straight tail appearing to be some kind of elemental tail.…”
Section: Ion Tail or Elemental Tail?mentioning
confidence: 90%
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