Jump to content

Comet McNaught: Difference between revisions

From Wikipedia, the free encyclopedia
Browse history interactively
← Previous editNext edit →
Content deleted Content added
VisualWikitext
No edit summary
(646 intermediate revisions by more than 100 users not shown)
Line 1: Line 1:
{{short description|Great Comet of 2007}}
{{current}}
{{Comet |
{{other uses}}

| name=C/2006 P1
{{Use dmy dates|date=September 2019}}
| image=[[Image:Comet_McNaught.jpg|250px|Comet C/2006 P1 over Iceland]]
{{Infobox Comet
| discoverer=[[Robert H. McNaught]]
| name=C/2006 P1 (McNaught)
| discovery_date=[[August 7]], [[2006]]
| image=[[File:Comet P1 McNaught02 - 23-01-07.jpg|270px|Comet McNaught as seen from Swift's Creek, [[Victoria (Australia)|Victoria]] on 23 January 2007]]
| designations=C/2006 P1, Comet McNaught, 2006 P1
| discovery_date=7 August 2006
| epoch=2453990.5 ([[September 12]], [[2006]])
| designations=C/2006 P1, Comet McNaught, Great Comet of 2007
| semimajor=-5681.10388683203 [[Astronomical unit|AU]]
| observation_arc=338 days
| perihelion=0.170753998163775 AU
| aphelion=
| obs=331
| orbit=[[Oort cloud]]
| eccentricity=1.00003005648226
| epoch=2454113.2961 (20 January 2007)
| period=
| perihelion={{convert|0.1707|AU|km|abbr=on}}
| inclination=77.8276800447699°
| semimajor=~33,000 AU (inbound)<br/>~2,000 AU (outbound){{ref_label|A|a|none}}
| last_p=
| aphelion=~67,000 AU (inbound)<ref name="barycenter"/><br/>~4,100 AU (outbound){{ref_label|A|a|none}}
| next_p=[[January 12]], [[2007]] [http://ssd.jpl.nasa.gov/horizons.cgi]
| eccentricity=1.000019<ref name=jpldata>{{cite web
|type=2007-07-11 last obs.
|title=JPL Small-Body Database Browser: C/2006 P1 (McNaught)
|url=https://ssd.jpl.nasa.gov/sbdb.cgi?sstr=C/2006+P1
|access-date=17 December 2009}}</ref> ([[hyperbolic trajectory]])
| period=~6 million years (inbound)<ref name="barycenter"/><br/>~92,600 [[Julian year (astronomy)|yr]] (outbound)<ref name="Perth">{{cite web
|date=22 January 2007
|title=Comet C/2006 P1 (McNaught) – facts and figures
|publisher=Perth Observatory in Australia
|url=http://www.perthobservatory.wa.gov.au/information/comet_mcnaught_info.html
|access-date=1 February 2011
|url-status=dead
|archive-url=https://web.archive.org/web/20110218054618/http://www.perthobservatory.wa.gov.au/information/comet_mcnaught_info.html
|archive-date=18 February 2011
}}</ref>{{ref_label|A|a|none}}
| inclination=77.82768004°
| Jupiter_moid=0.32 AU
| last_p=12 January 2007<ref name=jpldata/>
| max_speed={{convert|101.9|km/s|mph|abbr=on}}<ref name="perihelion-kms"/>
}}
}}
'''C/2006 P1''', also known as '''Comet McNaught''', is a comet that was discovered on [[August 7]], [[2006]] in [[Australia]] by [[Robert H. McNaught]]. It will make [[Perihelion]] on [[January 12]], [[2007]], and has become visible to the naked eye. It is visible near [[Venus]], [[Aquila]], and [[Ophiuchus]] during sunrise or sunset in the northern hemisphere. At magnitude -2, it is currently the brightest comet visible since [[Comet West]] in 1975, making it the 4th brightest comet seen in 70 years. [http://cfa-www.harvard.edu/icq/brightest.html]. After passing the sun later this month, it will become visible in the southern hemisphere, possibly as a much brighter object than it already is now.


'''Comet McNaught''', also known as the '''Great Comet of 2007''' and [[Naming of comets|given the designation]] '''C/2006 P1''', is a [[List of near-parabolic comets|non-periodic comet]] discovered on 7 August 2006 by British-Australian astronomer [[Robert H. McNaught]] using the [[Uppsala Southern Schmidt Telescope]].<ref>{{cite web|url=http://www.mso.anu.edu.au/~rmn/C2006P1.htm|title=Report on the comet discovery and progress from Robert McNaught's homepage|access-date=17 January 2007|url-status=dead|archive-url=https://web.archive.org/web/20070119092745/http://www.mso.anu.edu.au/~rmn/C2006P1.htm|archive-date=19 January 2007}}</ref> It was the brightest comet in over 40 years, and was easily visible to the [[naked eye]] for observers in the [[Southern Hemisphere]] in January and February 2007.
==References and external links==

*[http://spaceweather.com/images2007/08jan07/skymap_north_m.gif Morning viewing chart]
With an estimated peak [[Apparent magnitude|magnitude]] of −5.5, the comet was the second-brightest since 1935.<ref name="brightest">{{cite web |url=http://www.icq.eps.harvard.edu/brightest.html |title=Brightest comets seen since 1935 |publisher=[[Harvard]] |access-date=12 January 2007 |url-status=dead |archive-url=https://web.archive.org/web/20111228014918/http://www.icq.eps.harvard.edu/brightest.html |archive-date=28 December 2011 }}</ref> Around [[Perihelion and aphelion|perihelion]] on 12 January, it was visible worldwide in broad daylight. Its tail measured an estimated 35 degrees in length at its peak.<ref name="kronk">{{cite web|url=http://cometography.com/lcomets/2006p1.html|title=Kronk's Cometography – C/2006 P1|access-date = 21 January 2010}}</ref>
*[http://spaceweather.com/images2007/08jan07/skymap_north.gif Evening viewing chart]

*[http://skytonight.com/observing/home/5089276.html Article about comet]
The brightness of C/2006 P1 near perihelion was enhanced by [[forward scatter]]ing.<ref name="fscat">{{cite web
*[http://neo.jpl.nasa.gov/cgi-bin/db_shm?sstr=2006+P1&group=com&search=Search Comet orbital elements and diagram]
| url = http://www.icq.eps.harvard.edu/marcus_icq29_119.pdf
*[http://antwrp.gsfc.nasa.gov/apod/ap070109.html Astronomy Picture of the Day]
| title = Forward-Scattering Enhancement of Comet Brightness. II. The Light Curve of C/2006 P1
{{comet-stub}}
| first = Joseph N.
| last = Marcus
|date=October 2007
| publisher = International Comet Quarterly
| pages = 119–130
}}</ref>

== Discovery ==
McNaught discovered the comet in a [[Charge-coupled device|CCD]] image on 7 August 2006 during the course of routine observations for the [[Siding Spring Survey]], which searched for Near-Earth Objects that might represent a collision threat to Earth. The comet was discovered in [[Ophiuchus]], shining very dimly at a magnitude of about +17. From August through November 2006, the comet was imaged and tracked as it moved through Ophiuchus and [[Scorpius]], brightening as high as [[apparent magnitude|magnitude]] +9, still too dim to be seen with the unaided eye.<ref name="kronk" /> Then, for most of December, the comet was lost in the glare of the [[Sun]].{{citation needed|date=January 2017}}

Upon recovery, it became apparent that the comet was brightening very fast, reaching naked-eye visibility in early January 2007. It was visible to northern hemisphere observers, in [[Sagittarius (constellation)|Sagittarius]] and surrounding constellations, until about 13 January. Perihelion was 12 January at a distance of 0.17&nbsp;[[Astronomical unit|AU]]. This was close enough to the Sun to be observed by the space-based [[Solar and Heliospheric Observatory|Solar and Heliospheric Observatory (SOHO)]].<ref name="SOHO2007">{{cite web
|date=4 February 2007
|title=Brightest Comet in Over Forty Years
|publisher=SOHO (Hot Shots)
|url=http://sohowww.nascom.nasa.gov/hotshots/2007_01_08/
|access-date=18 April 2011}}</ref> The comet entered SOHO's [[Large Angle and Spectrometric Coronagraph|LASCO]] C3 camera's [[field of view]] on 12 January,<ref name="SOHO2007"/> and was viewable on the [[World Wide Web|web]] in near real-time. The comet left SOHO's field of view on 16 January.<ref name="SOHO2007"/> Due to its proximity to the Sun, the Northern Hemisphere ground-based viewers had a short window for viewing, and the comet could be spotted only during bright twilight.{{citation needed|date=January 2017}}

As it reached perihelion on 12 January, it became the brightest comet since [[Comet Ikeya–Seki]] in 1965.<ref name="brightest" /> The comet was dubbed ''the [[Great Comet]] of 2007'' by Space.com.<ref>[http://p143.news.scd.yahoo.com/s/space/20070112/sc_space/thegreatcometof2007watchitontheweb ''The Great Comet of 2007: Watch it on the Web'']{{dead link|date=January 2018 |bot=InternetArchiveBot |fix-attempted=yes }} Yahoo News, January by Joe Rao of SPACE.com Skywatching Columnist. Accessed 16 January 2007</ref> On 13 and 14 January 2007, the comet attained an estimated maximum [[apparent magnitude]] of −5.5.<ref name ="yoshida">{{cite web|url=http://aerith.net/comet/catalog/2006P1/2006P1.html|title=C/2006 P1 ( McNaught )}}</ref> It was bright enough to be visible in daylight about 5°–10° southeast of the Sun from 12 to 14 January.<ref>{{cite web|url=http://spaceweather.com/comets/gallery_mcnaught_page7.htm|title=Untitled Document}}</ref> The closest approach to the Earth occurred on 15 January 2007, at a distance of 0.82&nbsp;AU.<ref>{{cite web|url=http://www.yp-connect.net/~mmatti/|title=Southern Comets Homepage|access-date = 17 January 2007}}</ref>

After passing the Sun, McNaught became visible in the Southern Hemisphere. In Australia, according to [[Siding Spring Observatory]] at [[Coonabarabran]], where the comet was discovered, it was to have reached its theoretical peak in brightness on Sunday 14 January just after sunset,<ref name="sidingspring">{{cite web|url=http://msowww.anu.edu.au/~rmn/C2006P1.htm|title=C/2006 P1 (McNaught)|url-status=dead|archive-url=https://web.archive.org/web/20070120141427/http://msowww.anu.edu.au/~rmn/C2006P1.htm|archive-date=20 January 2007}}</ref> when it would have been visible for 23 minutes. On 15 January the comet was observed at [[Perth Observatory]] with an estimated [[apparent magnitude]] of −4.0.{{citation needed|date=January 2017}}

== ''Ulysses'' probe ==
[[File:Animation of Ulysses trajectory.gif|thumb|Animation of ''Ulysses''{{'}} trajectory from 6 October 1990 to 29 June 2009<br />{{legend2|magenta|''Ulysses''}}{{·}}{{legend2|Royalblue|[[Earth]]}}{{·}}{{legend2|Gold|[[Jupiter]]}}{{·}}{{legend2|Cyan|C/2006 P1}}{{·}}{{legend2|Lime|[[C/1996 B2]]}}{{·}}{{legend2|OrangeRed|[[C/1999 T1]]}}]]
The [[Ulysses (spacecraft)|''Ulysses'' spacecraft]] made an unexpected pass through the tail of the comet on 3 February 2007.<ref name="chance encounter">{{cite news |publisher=Astronomy |title=A chance encounter with a comet |date=2 October 2007 |url=http://www.astronomy.com/en/sitecore/content/Home/News-Observing/News/2007/10/A%20chance%20encounter%20with%20a%20comet.aspx |archive-url=https://web.archive.org/web/20120206220017/http://www.astronomy.com/en/sitecore/content/Home/News-Observing/News/2007/10/A%20chance%20encounter%20with%20a%20comet.aspx |url-status=dead |archive-date=6 February 2012}}</ref> Evidence of the encounter was published in the 1 October 2007 issue of ''[[The Astrophysical Journal]]''.<ref>{{cite journal |title=Encounter of the Ulysses Spacecraft with the Ion Tail of Comet MCNaught |journal=The Astrophysical Journal |volume=667 |issue=2 |year=2007 |pages=1262–1266 |doi=10.1086/521019 |bibcode=2007ApJ...667.1262N |doi-access=free |last1=Neugebauer |first1=M. |display-authors=etal}}</ref> ''Ulysses'' flew through McNaught's ion tail 260 million kilometres (160&nbsp;million miles) from the comet's core and instrument readings showed that there was "complex chemistry" in the region.<ref name="chance encounter" />

The Solar Wind Ion Composition Spectrometer (SWICS) aboard ''Ulysses'' measured Comet McNaught's tail composition and detected unexpected ions. It was the first time that O<sup>3+</sup> oxygen ions were detected near a comet. This suggested that the solar wind ions, which did not originally have most of their electrons, gained some electrons while passing through the comet's atmosphere.<ref name="chance encounter" />

SWICS also measured the speed of the [[solar wind]], and found that even at 260 million kilometres (160&nbsp;million miles) from the comet's nucleus, the tail had slowed the solar wind to half its normal speed. The solar wind should usually be about {{convert|435|mi|km|order=flip}} per second at that distance from the Sun, but inside the comet's ion tail, it was less than {{convert|250|mi|abbr=on|order=flip}} per second.{{Citation needed|date=January 2024}}
{{quote|This was very surprising to me. Way past the orbit of Mars, the solar wind felt the disturbance of this little comet. It will be a serious challenge for us theoreticians and computer modellers to figure out the physics|author=Michael Combi|source=<ref name="chance encounter"/>}}

Prof. George Gloeckler, the principal investigator on the Solar Wind Ion Composition Spectrometer (SWICS), said the discovery was important as the composition of comets told them about conditions approximately 4.5&nbsp;billion years ago when the Solar System was formed. {{quote|Here we got a direct sample of this ancient material which gives us the best information on cometary composition. We're still in the process of figuring out what it tells us. We're contributing part of the whole puzzle. The benefits of such an observation are important. They constrain the interactions of such comets with the Sun, including how the comets lose mass. They also examine the question of how a sudden injection of neutral and cold material interacts with hot solar-like plasmas. That occurs in other places of the universe and we were able to study it right here|author=[[Thomas Zurbuchen]]|source=<ref name="chance encounter"/>}}

== Period ==
Comet C/2006 P1 took millions of years coming directly from the [[Oort cloud]].<ref name=barycenter/> It follows a [[hyperbolic trajectory]] (with an [[Osculating orbit|osculating eccentricity]] larger than 1)<ref name="jpldata"/> during its passage through the inner [[Solar System]], but the eccentricity will drop below 1 after it leaves the influence of the planets and it will remain bound to the Solar System as an Oort cloud comet.<ref name="JPL-Horizons1">{{cite web|url=https://ssd.jpl.nasa.gov/horizons_batch.cgi?batch=1&TABLE_TYPE=ELEMENTS&OUT_UNITS=AU-D&COMMAND=%22C/2006%20P1%22&CENTER=%27sun%27&START_TIME=2006-01-01&STOP_TIME=2050-01-01&STEP_SIZE=1Y|title=McNaught (C/2006 P1): Heliocentric elements 2006–2050|publisher=Jet Propulsion Laboratory|date=18 July 2007|access-date=10 November 2018}}</ref>

Given the [[orbital eccentricity]] of this object, different [[Epoch (astronomy)|epochs]] can generate quite different heliocentric unperturbed [[Two-body problem|two-body]] [[curve fitting|best-fit]] solutions to the aphelion distance (maximum distance) of this object.{{ref_label|B|b|none}} For objects at such high eccentricity, the Sun's [[Barycenter|barycentric coordinates]] are more stable than heliocentric coordinates. Using [[JPL Horizons On-Line Ephemeris System|JPL Horizons]], the barycentric orbital elements for epoch 2050 generate a [[Semi-major and semi-minor axes|semi-major axis]] of 2050&nbsp;AU and a period of approximately 92,700&nbsp;years.<ref name="JPL-Horizons2">{{cite web|url=https://ssd.jpl.nasa.gov/horizons_batch.cgi?batch=1&TABLE_TYPE=ELEMENTS&OUT_UNITS=AU-D&COMMAND=%22C/2006%20P1%22&CENTER=%27000%27&START_TIME=2050-01-01&STOP_TIME=2050-01-02&STEP_SIZE=1d|title=McNaught (C/2006 P1): Barycentric elements 2050|publisher=Jet Propulsion Laboratory|date=18 July 2007|access-date=10 November 2018}}</ref>

== Gallery ==
<gallery class="center" caption="Images of Comet McNaught in January 2007">

Image:Comet McNaught.jpg| Over [[Iceland]] on 9 January
Image:McNaughtComet.jpg|Just after sunset from [[Perth, Western Australia|Perth]], Western Australia on 16 January
Image:Cometperth3.jpg|Over [[Perth, Western Australia|Perth]], Western Australia at 9&nbsp;p.m. on 17 January
File:Comet McNaught at South Beach.jpg|Seen from [[South Beach]], [[Fremantle, Western Australia|Fremantle]], Western Australia on 17 January. The lights at the bottom are navigation lights in [[Gage Roads]].
Image:Comet McNaught Windhoek 2007 Jan 17.jpg|[[Windhoek]], [[Namibia]] on 17 January at 8&nbsp;p.m. local time
File:Comet McNaught (2).jpg|Setting behind the [[Andes]], at [[San Carlos de Bariloche|Bariloche]], [[Argentina]], on 17 January
Image:Cometmcnaughtchrisn1.jpg| 18 January from [[Pukekohe]], New Zealand
Image:Comet McNaught from La Perouse 3.JPG| 19 January from La Perouse, Sydney, Australia
Image:Comet McNaught Signal Hill 20070119 1.jpg|From [[Signal Hill (Cape Town)|Signal Hill]], [[Cape Town]] on 19 January. The silhouette of [[Lion's Head (Cape Town)|Lion's Head]] is visible on the left, while on the right [[Venus]] sets over the Atlantic Ocean.
Image:sat comet WEB.jpg|20 January from Lawlers, Western Australia
Image:Villa Alemana Region of Valparaiso, Chile.jpg|Villa Alemana Region of [[Valparaiso]], [[Chile]] on 20 January
Image:2007 01 21 Comet McNaught Canberra Red Hill.jpg|from [[Red Hill, Australian Capital Territory|Red Hill]], Canberra on 21 January
Image:Mcnaught daylight20070113.jpg|Comet McNaught in broad daylight while it was visible by naked eye. Taken on 13 January at 14:00 UTC in Gais, Switzerland.
Image:Comet tail.jpg|The tail of the comet Comet McNaught was still seen in the [[Northern hemisphere]] after the comet itself was long gone. The picture also shows the Moon and Venus.
Image:Inferior mirage of sunset comet.jpg|A very rare sequence of the inferior [[Mirage of astronomical objects|Mirage]] of the comet set
<!-- Please do not add more pictures simply for the sake of having more pictures. Consider whether they will add value to the gallery already in place. If in doubt please discuss individual cases first on the "discussion" tab at the top of this article. -->
</gallery>

==See also==
{{Portal|Astronomy}}
* [[Comet McNaught (disambiguation)|Other comets with the name McNaught]]
* [[Lists of comets]]
* [[List of interstellar comets]]
* [[List of comets by type]]
* [[List of non-periodic comets]]
* [[List of periodic comets]]

==Notes==
{{refbegin}}
<ol type="a">

<li>{{Note_label|A|a|none}} Solution using the Solar System [[Center of mass#Barycenter in astrophysics and astronomy|Barycenter]]</li>

<li>{{Note_label|B|b|none}} Read [[osculating orbit]] for more details about heliocentric unperturbed two-body solutions</li>

</ol>
{{refend}}

== References ==
{{Reflist|refs=

<ref name="barycenter">{{cite web
| author=[[JPL Horizons On-Line Ephemeris System|Horizons]] output
| url=https://ssd.jpl.nasa.gov/horizons_batch.cgi?batch=1&COMMAND=%272006+P1%27&TABLE_TYPE=%27ELEMENTS%27&START_TIME=%271950-01-01%27&STOP_TIME=%272050-01-01%27&STEP_SIZE=%27100%20years%27&CENTER=%27@0%27&OUT_UNITS=%27AU-D%27
| title=Barycentric Osculating Orbital Elements for Comet C/2006 P1 (McNaught) }} Solution using the Solar System [[Barycenter]]. Ephemeris Type:Elements and Center:@0 (To be outside planetary region, inbound epoch 1950 and outbound epoch 2050)</ref>

<ref name="perihelion-kms">{{cite web
|title=Horizons Batch for 2007-Jan-12 perihelion velocity
|publisher=[[JPL Horizons On-Line Ephemeris System|JPL Horizons]]
|url=https://ssd.jpl.nasa.gov/horizons_batch.cgi?batch=1&COMMAND=%272006+P1%27&START_TIME=%272007-01-12%2019:00%27&STOP_TIME=%272007-01-12%2019:30%27&STEP_SIZE=%271%20min%27&QUANTITIES=%2719,20,22,39%27
|accessdate=2023-01-22}}</ref>

}} <!-- end of reflist-->

== External links ==
{{Commons category|C/2006 P1}}
* {{cite web | last = McNaught | first = Robert | year = 2007 | url = http://www.mso.anu.edu.au/~rmn/C2006P1.htm | title = C/2006 P1 | work = Siding Spring Observatory | publisher = [[Australian National University]] | access-date = 21 January 2007 | url-status=dead | archive-url = https://web.archive.org/web/20070119092745/http://www.mso.anu.edu.au/~rmn/C2006P1.htm | archive-date = 19 January 2007 | df = dmy-all }}
* [http://www.csc.eps.harvard.edu/2006P1.html C/2006 P1 at Cometary Science Center]
* [http://skytonight.com/observing/home/5089276.html Info and gallery, from skytonight] {{Webarchive|url=https://web.archive.org/web/20070109193644/http://skytonight.com/observing/home/5089276.html |date=9 January 2007 }}
* [https://web.archive.org/web/20080625083426/http://www.infectiousvideos.com/p/7858 Comet McNaught in Perth skies]
* {{JPL Small Body|name=C/2006 P1}}
* [https://web.archive.org/web/20000815094342/http://sohowww.nascom.nasa.gov/hotshots/ Current hotshots of comet], from NASA's [[Solar and Heliospheric Observatory]] website
* [http://www.space.com/spacewatch/soho_lasco_c3_live.html Animation of recent images within LASCO C3's FOV]
* [http://www.cometal.bigblog.com.au/video.do?id=180397 McNaught in STEREO HI1a]{{Dead link|date=September 2018 |bot=InternetArchiveBot |fix-attempted=yes }}
* [https://web.archive.org/web/20080411181213/http://www.cometal.bigblog.com.au/data/4/22129/image/MontageMcnaught1606620071221082938.gif Montage McNaught in STEREO HI1a]
* [http://cometmcnaught.net/mcnaughtphotogallery.htm Comet McNaught photo gallery from Southern Hemisphere] {{Webarchive|url=https://web.archive.org/web/20070203143115/http://cometmcnaught.net/mcnaughtphotogallery.htm |date=3 February 2007 }}
* [[NASA]] [[Astronomy Picture of the Day|Astronomy Pictures of the Day:]]
** 5 January – [http://antwrp.gsfc.nasa.gov/apod/ap070105.html Comet McNaught Heads for the Sun]
** 9 January – [http://antwrp.gsfc.nasa.gov/apod/ap070109.html McNaught Now Brightest Comet in Decades]
** 13 January – [http://antwrp.gsfc.nasa.gov/apod/ap070113.html Comet Over Krakow]
** 15 January – [http://antwrp.gsfc.nasa.gov/apod/ap070115.html Comet McNaught Over Catalonia]
** 17 January – [http://antwrp.gsfc.nasa.gov/apod/ap070117.html Comet McNaught from New STEREO Satellite]
** 18 January – [http://antwrp.gsfc.nasa.gov/apod/ap070118.html Southern Comet]
** 19 January – [http://antwrp.gsfc.nasa.gov/apod/ap070119.html McNaught's Matinee]
** 20 January – [http://antwrp.gsfc.nasa.gov/apod/ap070120.html SOHO: Comet McNaught Movie]
** 22 January – [http://antwrp.gsfc.nasa.gov/apod/ap070122.html The Magnificent Tail of Comet McNaught]
** 24 January – [http://antwrp.gsfc.nasa.gov/apod/ap070124.html A Comet Tail Horizon]
** 1 February – [http://antwrp.gsfc.nasa.gov/apod/ap070201.html A Tail of Two Hemispheres]
** 5 February – [http://antwrp.gsfc.nasa.gov/apod/ap070205.html Comet Between Fireworks and Lightning]
** 12 February – [http://antwrp.gsfc.nasa.gov/apod/ap070212.html Comet McNaught Over New Zealand]

{{Comets}}
{{Portal bar|Astronomy|Stars|Spaceflight|Outer space|Solar System}}
{{Authority control}}


[[de:McNaught (C/2006 P1)]]
{{DEFAULTSORT:McNaught, 2006 P1}}
[[Category:Non-periodic comets]]
[[eo:C/2006 P1]]
[[Category:Comets visited by spacecraft]]
[[lv:C/2006 P1]]
[[Category:2007 in science]]
[[pl:C/2006 P1]]
[[Category:Astronomical objects discovered in 2006|20060807]]
[[Category:Comets in 2007]]
[[Category:Great comets]]
[[Category:Oort cloud]]

Revision as of 01:31, 30 December 2024

For other uses, see Comet McNaught (disambiguation).

C/2006 P1 (McNaught)
Comet McNaught as seen from Swift's Creek, Victoria on 23 January 2007
Discovery
Discovery date7 August 2006
Designations
C/2006 P1, Comet McNaught, Great Comet of 2007
Orbital characteristics
Epoch2454113.2961 (20 January 2007)
Observation arc338 days
Number of
observations		331
Orbit typeOort cloud
Aphelion~67,000 AU (inbound)[1]
~4,100 AU (outbound)[a]
Perihelion0.1707 AU (25,540,000 km)
Semi-major axis~33,000 AU (inbound)
~2,000 AU (outbound)[a]
Eccentricity1.000019[2] (hyperbolic trajectory)
Orbital period~6 million years (inbound)[1]
~92,600 yr (outbound)[3][a]
Max. orbital speed101.9 km/s (228,000 mph)[4]
Inclination77.82768004°
Last perihelion12 January 2007[2]
Jupiter MOID0.32 AU

Comet McNaught, also known as the Great Comet of 2007 and given the designation C/2006 P1, is a non-periodic comet discovered on 7 August 2006 by British-Australian astronomer Robert H. McNaught using the Uppsala Southern Schmidt Telescope.[5] It was the brightest comet in over 40 years, and was easily visible to the naked eye for observers in the Southern Hemisphere in January and February 2007.

With an estimated peak magnitude of −5.5, the comet was the second-brightest since 1935.[6] Around perihelion on 12 January, it was visible worldwide in broad daylight. Its tail measured an estimated 35 degrees in length at its peak.[7]

The brightness of C/2006 P1 near perihelion was enhanced by forward scattering.[8]

Discovery

McNaught discovered the comet in a CCD image on 7 August 2006 during the course of routine observations for the Siding Spring Survey, which searched for Near-Earth Objects that might represent a collision threat to Earth. The comet was discovered in Ophiuchus, shining very dimly at a magnitude of about +17. From August through November 2006, the comet was imaged and tracked as it moved through Ophiuchus and Scorpius, brightening as high as magnitude +9, still too dim to be seen with the unaided eye.[7] Then, for most of December, the comet was lost in the glare of the Sun.[citation needed]

Upon recovery, it became apparent that the comet was brightening very fast, reaching naked-eye visibility in early January 2007. It was visible to northern hemisphere observers, in Sagittarius and surrounding constellations, until about 13 January. Perihelion was 12 January at a distance of 0.17 AU. This was close enough to the Sun to be observed by the space-based Solar and Heliospheric Observatory (SOHO).[9] The comet entered SOHO's LASCO C3 camera's field of view on 12 January,[9] and was viewable on the web in near real-time. The comet left SOHO's field of view on 16 January.[9] Due to its proximity to the Sun, the Northern Hemisphere ground-based viewers had a short window for viewing, and the comet could be spotted only during bright twilight.[citation needed]

As it reached perihelion on 12 January, it became the brightest comet since Comet Ikeya–Seki in 1965.[6] The comet was dubbed the Great Comet of 2007 by Space.com.[10] On 13 and 14 January 2007, the comet attained an estimated maximum apparent magnitude of −5.5.[11] It was bright enough to be visible in daylight about 5°–10° southeast of the Sun from 12 to 14 January.[12] The closest approach to the Earth occurred on 15 January 2007, at a distance of 0.82 AU.[13]

After passing the Sun, McNaught became visible in the Southern Hemisphere. In Australia, according to Siding Spring Observatory at Coonabarabran, where the comet was discovered, it was to have reached its theoretical peak in brightness on Sunday 14 January just after sunset,[14] when it would have been visible for 23 minutes. On 15 January the comet was observed at Perth Observatory with an estimated apparent magnitude of −4.0.[citation needed]

Ulysses probe

Animation of Ulysses' trajectory from 6 October 1990 to 29 June 2009
  Ulysses ·   Earth ·   Jupiter ·   C/2006 P1 ·   C/1996 B2 ·   C/1999 T1

The Ulysses spacecraft made an unexpected pass through the tail of the comet on 3 February 2007.[15] Evidence of the encounter was published in the 1 October 2007 issue of The Astrophysical Journal.[16] Ulysses flew through McNaught's ion tail 260 million kilometres (160 million miles) from the comet's core and instrument readings showed that there was "complex chemistry" in the region.[15]

The Solar Wind Ion Composition Spectrometer (SWICS) aboard Ulysses measured Comet McNaught's tail composition and detected unexpected ions. It was the first time that O3+ oxygen ions were detected near a comet. This suggested that the solar wind ions, which did not originally have most of their electrons, gained some electrons while passing through the comet's atmosphere.[15]

SWICS also measured the speed of the solar wind, and found that even at 260 million kilometres (160 million miles) from the comet's nucleus, the tail had slowed the solar wind to half its normal speed. The solar wind should usually be about 700 kilometres (435 mi) per second at that distance from the Sun, but inside the comet's ion tail, it was less than 400 km (250 mi) per second.[citation needed]

This was very surprising to me. Way past the orbit of Mars, the solar wind felt the disturbance of this little comet. It will be a serious challenge for us theoreticians and computer modellers to figure out the physics

— Michael Combi, [15]

Prof. George Gloeckler, the principal investigator on the Solar Wind Ion Composition Spectrometer (SWICS), said the discovery was important as the composition of comets told them about conditions approximately 4.5 billion years ago when the Solar System was formed.

Here we got a direct sample of this ancient material which gives us the best information on cometary composition. We're still in the process of figuring out what it tells us. We're contributing part of the whole puzzle. The benefits of such an observation are important. They constrain the interactions of such comets with the Sun, including how the comets lose mass. They also examine the question of how a sudden injection of neutral and cold material interacts with hot solar-like plasmas. That occurs in other places of the universe and we were able to study it right here

— Thomas Zurbuchen, [15]

Period

Comet C/2006 P1 took millions of years coming directly from the Oort cloud.[1] It follows a hyperbolic trajectory (with an osculating eccentricity larger than 1)[2] during its passage through the inner Solar System, but the eccentricity will drop below 1 after it leaves the influence of the planets and it will remain bound to the Solar System as an Oort cloud comet.[17]

Given the orbital eccentricity of this object, different epochs can generate quite different heliocentric unperturbed two-body best-fit solutions to the aphelion distance (maximum distance) of this object.[b] For objects at such high eccentricity, the Sun's barycentric coordinates are more stable than heliocentric coordinates. Using JPL Horizons, the barycentric orbital elements for epoch 2050 generate a semi-major axis of 2050 AU and a period of approximately 92,700 years.[18]

  • Images of Comet McNaught in January 2007
  • Over Iceland on 9 January
    Over Iceland on 9 January
  • Just after sunset from Perth, Western Australia on 16 January
    Just after sunset from Perth, Western Australia on 16 January
  • Over Perth, Western Australia at 9 p.m. on 17 January
    Over Perth, Western Australia at 9 p.m. on 17 January
  • Seen from South Beach, Fremantle, Western Australia on 17 January. The lights at the bottom are navigation lights in Gage Roads.
    Seen from South Beach, Fremantle, Western Australia on 17 January. The lights at the bottom are navigation lights in Gage Roads.
  • Windhoek, Namibia on 17 January at 8 p.m. local time
    Windhoek, Namibia on 17 January at 8 p.m. local time
  • Setting behind the Andes, at Bariloche, Argentina, on 17 January
    Setting behind the Andes, at Bariloche, Argentina, on 17 January
  • 18 January from Pukekohe, New Zealand
    18 January from Pukekohe, New Zealand
  • 19 January from La Perouse, Sydney, Australia
    19 January from La Perouse, Sydney, Australia
  • From Signal Hill, Cape Town on 19 January. The silhouette of Lion's Head is visible on the left, while on the right Venus sets over the Atlantic Ocean.
    From Signal Hill, Cape Town on 19 January. The silhouette of Lion's Head is visible on the left, while on the right Venus sets over the Atlantic Ocean.
  • 20 January from Lawlers, Western Australia
    20 January from Lawlers, Western Australia
  • Villa Alemana Region of Valparaiso, Chile on 20 January
    Villa Alemana Region of Valparaiso, Chile on 20 January
  • from Red Hill, Canberra on 21 January
    from Red Hill, Canberra on 21 January
  • Comet McNaught in broad daylight while it was visible by naked eye. Taken on 13 January at 14:00 UTC in Gais, Switzerland.
    Comet McNaught in broad daylight while it was visible by naked eye. Taken on 13 January at 14:00 UTC in Gais, Switzerland.
  • The tail of the comet Comet McNaught was still seen in the Northern hemisphere after the comet itself was long gone. The picture also shows the Moon and Venus.
    The tail of the comet Comet McNaught was still seen in the Northern hemisphere after the comet itself was long gone. The picture also shows the Moon and Venus.
  • A very rare sequence of the inferior Mirage of the comet set
    A very rare sequence of the inferior Mirage of the comet set

See also

Notes

  1. ^ Solution using the Solar System Barycenter
  2. ^ Read osculating orbit for more details about heliocentric unperturbed two-body solutions

References

  1. ^ a b c Horizons output. "Barycentric Osculating Orbital Elements for Comet C/2006 P1 (McNaught)". Solution using the Solar System Barycenter. Ephemeris Type:Elements and Center:@0 (To be outside planetary region, inbound epoch 1950 and outbound epoch 2050)
  2. ^ a b c "JPL Small-Body Database Browser: C/2006 P1 (McNaught)" (2007-07-11 last obs.). Retrieved 17 December 2009.
  3. ^ "Comet C/2006 P1 (McNaught) – facts and figures". Perth Observatory in Australia. 22 January 2007. Archived from the original on 18 February 2011. Retrieved 1 February 2011.
  4. ^ "Horizons Batch for 2007-Jan-12 perihelion velocity". JPL Horizons. Retrieved 22 January 2023.
  5. ^ "Report on the comet discovery and progress from Robert McNaught's homepage". Archived from the original on 19 January 2007. Retrieved 17 January 2007.
  6. ^ a b "Brightest comets seen since 1935". Harvard. Archived from the original on 28 December 2011. Retrieved 12 January 2007.
  7. ^ a b "Kronk's Cometography – C/2006 P1". Retrieved 21 January 2010.
  8. ^ Marcus, Joseph N. (October 2007). "Forward-Scattering Enhancement of Comet Brightness. II. The Light Curve of C/2006 P1" (PDF). International Comet Quarterly. pp. 119–130.
  9. ^ a b c "Brightest Comet in Over Forty Years". SOHO (Hot Shots). 4 February 2007. Retrieved 18 April 2011.
  10. ^ The Great Comet of 2007: Watch it on the Web[permanent dead link] Yahoo News, January by Joe Rao of SPACE.com Skywatching Columnist. Accessed 16 January 2007
  11. ^ "C/2006 P1 ( McNaught )".
  12. ^ "Untitled Document".
  13. ^ "Southern Comets Homepage". Retrieved 17 January 2007.
  14. ^ "C/2006 P1 (McNaught)". Archived from the original on 20 January 2007.
  15. ^ a b c d e "A chance encounter with a comet". Astronomy. 2 October 2007. Archived from the original on 6 February 2012.
  16. ^ Neugebauer, M.; et al. (2007). "Encounter of the Ulysses Spacecraft with the Ion Tail of Comet MCNaught". The Astrophysical Journal. 667 (2): 1262–1266. Bibcode:2007ApJ...667.1262N. doi:10.1086/521019.
  17. ^ "McNaught (C/2006 P1): Heliocentric elements 2006–2050". Jet Propulsion Laboratory. 18 July 2007. Retrieved 10 November 2018.
  18. ^ "McNaught (C/2006 P1): Barycentric elements 2050". Jet Propulsion Laboratory. 18 July 2007. Retrieved 10 November 2018.
Wikimedia Commons has media related to C/2006 P1.
Retrieved from "https://en.wikipedia.org/enwiki/w/index.php?title=Comet_McNaught&oldid=1266087235"