Comet A3 has an anti-tail!<\/h3>\n
Comet A3 is becoming easier to spot with the unaided eye, as it moves up and away from the sunset point this week. Try to spot the comet after sunset this week, facing west. The comet was closest to Earth on Saturday, October 12, so this week might be the best time to spot it. Long-exposure (10- to 45-second) images are also showing a faint, downwards or sun directed tail, which is called the anti-tail.<\/p>\n
The anti-tail is often said to be an optical illusion, because it appears in the opposite direction of the comet\u2019s dust tail. But it is, in fact, a real phenomenon, visible only when Earth is crossing the comet\u2019s orbital plane.<\/p>\n
And we have been passing the comet\u2019s orbital plane since yesterday (October 13), and will keep crossing it on October 14 and 15. Images taken on these nights long-exposure images of Comet A3 are showing this faint but interesting detail of the comet. It happens because the space geometry \u2013 or relative positions of the Earth, the comet and the sun \u2013 lets us see sunlight on larger particles left behind by the comet in its orbit. From our perspective, these cometary particles are being lit by the sun from behind<\/em>. <\/p>\n Meanwhile, the main or brighter tail that we see is caused by the dust and lighter particles being blown away by the intense heat from the sun. <\/p>\n Although casual observers might be confused and might think the material in the dust tail shows us the comet\u2019s trajectory through space, we should keep in mind that the main dust tail shows its materials (light dust particles and sublimated ice) are being blown by the sun\u2019s heat, while the comet is really moving in another direction, going up from our perspective, as we stand watching the western sky after sunset. <\/p>\n Meanwhile, the faint downwards anti-tail is showing us where the comet was coming from<\/em>. Sunlight coming from behind is revealing the comet\u2019s previous trajectory \u2013 its orbit \u2013 and also shows where the larger particles are being left in the comet\u2019s orbit. These larger particles are the ones that can cause bright meteors if Earth ever were to cross the path of those particles in the future. <\/p>\n It\u2019s fascinating that this week we can be looking at a possible meteor-producing comet tail. Will we see them? So far, calculations don\u2019t indicate that Earth will cross those particles\u2019 path. So \u2026 no meteors from Comet A3 (that we know of, yet)!<\/p>\n An effect that might be seen this week is a possible slight increase in the comet\u2019s brightness. That\u2019s somewhat surprising, because Earth and the comet have already passed their closest point, so the comet is getting farther away from now. Still, it might look a bit brighter to us now, as Earth crosses the comet\u2019s orbital plane, and as all the dust particles (both light and larger particles) appear more concentrated as seen from Earth.<\/p>\n Bottom line: Comet A3 and Earth has passed their closest point. But, early this week, we\u2019re crossing the plane of the comet\u2019s orbit. Some are seeing an anti-tail!<\/p>\n <\/div>\n![\"Comet](\"https:\/\/earthsky.org\/upl\/2024\/10\/Comet-A3-anti-tail-Rincon-Puerto-Rico-Victor-Rivera-e1728916617901.jpg\")
<\/figcaption><\/figure>\nThe anti-tail: A possible meteor shower producer?<\/h3>\n