OpenBCM V1.07b12 (Linux)

Packet Radio Mailbox

IW8PGT

[Mendicino(CS)-Italy]

 Login: GUEST





  
EI2GYB > ASTRO    06.02.23 08:27l 67 Lines 7738 Bytes #999 (0) @ WW
BID : 10151_EI2GYB
Read: GUEST
Subj: Understanding the Tails of Comet ZTF (C/2022 E3)
Path: IW8PGT<I3XTY<GB7COW<KE0GB<W9GM<N3HYM<EI2GYB
Sent: 230206/0709Z 10151@EI2GYB.DGL.IRL.EURO LinBPQ6.0.23

                                                              ##### 
     _        _               _   _                          #### _\_
    / \   ___| |_ _ __ ___   | \ | | _____      _____        ##=-[.].]     
   / _ \ / __| __| '__/ _ \  |  \| |/ _ \ \ /\ / / __|       #(    _\  
  / ___ \\__ \ |_| | | (_) | | |\  |  __/\ V  V /\__ \        #  \__|   
 /_/   \_\___/\__|_|  \___/  |_| \_|\___| \_/\_/ |___/         \___/ 
                                                              .'   `.
+------------------------------------------------------------------------------+

Understanding the Tails of Comet ZTF (C/2022 E3)

By: Bob King February 1, 2023


We explore Comet ZTF's remarkable trio of tails and share the latest news and photos.

With the Moon approaching full phase, this is a good time to check in on the comet of the hour, Comet ZTF (C/2022 E3). Currently glowing around magnitude 5.0 it's already exceeded the more pessimistic brightness forecasts. On January 28th from my home under moderately dark skies (SQM of 21 - Bortle 4) I easily spotted the interloper without optical aid as a 20'-wide, fuzzy glow with a brighter center 5ø northwest of Kochab in the Ursa Minor. Despite being magnitude 4.8, it wasn't obvious to the eye unless you knew exactly where to look. Three mornings later I saw it at magnitude 5.0.

There's been intense interest public interest in the comet due to heavy coverage in the news and social media. Everyone wants to see the "green comet." A crowd of people joined me on January 26th for a look through my 10-inch telescope as the temperature hovered around 0ø F (-18øC). Although moonlight and light pollution whittled it down to just a coma and bright core, no one left disappointed. Sometimes you don't need a lot of fanfare and rah-rah. The simple "is-ness" of nature is enough. There's also no denying that people like seeing what everyone's been talking about.


Peak brightness is expected on February 1st. That's also when Comet ZTF will pass closest to Earth (42 million km) and the last time we'll see it in a moonless sky until February 7th. When that day arrives, the comet should be a 6th-magnitude object zipping across Auriga at the rate of 4ø per day. As it recedes from Earth its pace soon slows. Despite a bright Moon in the coming nights, I encourage you to keep watching, as the comet makes scenic passes of Capella on February 5th and Zeta (?) Aurigae on February 6th. Given its bright, compact nuclear region I suspect it will remain visible in 50-mm binoculars and small scopes. It's also anchored in the evening sky, making observation more convenient.


Don't forget to check the night of February 10-11. That's when this flying iceberg passes within 1ø of Mars. Skywatchers in the Southern Hemisphere have been eager to get their first looks at this (so-far) northern comet and will get their chance beginning around February 4th. Amateurs know exactly how it feels to wait for an exciting southern object to come north, so we're happy to share the bounty. To find Comet ZTF you can use the chart above, check out the Sky & Telescope version, or easily create your own at in-the-sky.org by clicking in the Object field, typing C/2022 E3 (ZTF), and pressing Update.



Comets often sprout multiple tails. Heat from the Sun vaporizes their dust-rich ices, propelling gas and dust into space around the nucleus to form a temporary atmosphere or coma. Comets are also small, typically just a few kilometers across. With little gravity to hold onto much of anything, the radiation pressure of sunlight pushes the lofted debris behind the comet's head to form a dust or Type II tail. Cometary dust scatters longer wavelengths better than shorter ones, giving dust tails a yellowish or pinkish hue. Comet ZTF's wedge-shaped dust tail glowed distinctly pink in photos but appeared colorless visually.


At the same time, neutral gases released into the coma are broken apart by solar ultraviolet (UV) light. Water (H2O), for example, cleaves into OH- and H+. Ultraviolet light ionizes other molecules which are carried off by the magnetic force entrained in the solar wind to form a Type I or ion tail. The familiar blue of the ion tail - a hue difficult to detect visually but easily captured on camera - stems from ionized carbon monoxide. 


An ion tail points directly away from the Sun like a windsock in a gale. For good reason - the solar wind normally blows at around a million miles an hour (400 km/s), much faster than most comets travel. Fluctuations in the wind's speed and magnetic direction produce kinks and knots in the tail and sometimes sever it altogether like a scissors-snip at a ribbon cutting. Neutral dust particles are unaffected by the solar tempest and lag behind in the comet's orbital path to form a curved tail. Very bright comets such as Hale-Bopp (C/1995 O1) and NEOWISE (C/2020 F3) also exhibit faint, narrow tails of neutral sodium atoms directed radially away from the Sun like typical ion tails.


Our viewing perspective affects the appearance of a comet's tail as well. Seen broadside they can appear long and graceful. Head-on views compress and foreshorten them into wedges and spikes. Comet ZTF displayed a foreshortened, fan-shaped dust tail during the late fall and early winter as it passed high above the solar system plane. Later it grew a long, corkscrew ion tail and more recently gifted us a prominent antitail. Antitails are somewhat uncommon and appear in the sunward direction opposite the dust tail. At first glance they seem to defy logic. How can a tail appear ahead of a comet?


An antitail is composed of larger dust particles spalled from the comet's nucleus that are less affected by the Sun's radiation pressure and linger behind in the comet's orbital path. If the Earth happens to pass through the comet's orbital plane, we see the dust stack up across our line of sight and form a spike or band sticking out of the coma opposite the dust tail. Similarly, stars stack up across the distance from our vantage point in the galactic disk to create the glorious band of the Milky Way. Because both comet and Earth are always on the move, antitails gradually fan out, fade and disappear, which is exactly what happened with Comet ZTF earlier this week.


Its antitail was strikingly obvious for several nights before and after orbital-plane crossing on January 23rd. I saw it easily (though faintly) in 10ž50 binoculars on January 26th. By January 31st it was gone. No surprise really since it was little more than an optical illusion albeit a convincing one! The interplay of tail development as viewed from the moving platform of Earth have made Comet ZTF (C/2022 E3) both fun and satisfying to observe. And there's more to come as planet and comet continue their separate ways.



More info at:
https://skyandtelescope.org/astronomy-news/understanding-the-tails-of-comet-ztf-c-2022-e3/




+------------------------------------------------------------------------------+


================================================================================
=            ____  __  ____   ___  _  _  ____    ____  ____  ____              =
=           (  __)(  )(___ \ / __)( \/ )(  _ \  (  _ \(  _ \/ ___)             =
=            ) _)  )(  / __/( (_ \ )  /  ) _ (   ) _ ( ) _ (\___ \             =
=           (____)(__)(____) \___/(__/  (____/  (____/(____/(____/             =
=                  PART OF THE DONEGAL PACKET RADIO NETWORK                    =
=                    Packet: EI2GYB@EI2GYB.DGL.IRL.EURO                        =
=                      Email/PayPal: EI2GYB@GMAIL.COM                          =
================================================================================



Read previous mail | Read next mail


 22.12.2024 22:26:50lGo back Go up