{"id":24978,"date":"2021-09-28T08:40:23","date_gmt":"2021-09-28T08:40:23","guid":{"rendered":"https:\/\/www.skyatnightmagazine.com\/?p=100434"},"modified":"2021-09-28T09:22:05","modified_gmt":"2021-09-28T09:22:05","slug":"what-is-a-planetary-nebula","status":"publish","type":"rss_feed","link":"https:\/\/c01.purpledshub.com\/bbcskyatnight\/rss_feed\/what-is-a-planetary-nebula\/","title":{"rendered":"What is a planetary nebula?"},"content":{"rendered":"<p class=\"rssexcerpt\"><\/p><p class=\"rssauthor\">By Chris Lintott\n                \t\t<\/p><p class=\"rssbyline\">Published: Tuesday, 28 September 2021 at 12:00 am<\/p><hr class=\"no-tts wp-block-separator\" \/>\n\n<p>Planetary nebulae are formed during the later stages of a star\u2019s life (the Sun, for example) as instability at the core causes the outer layers of the star to be shed.<\/p>\n<p>As the stellar wind pushes material away from the star, it can excite and interact with surrounding material, creating beautiful, ethereal structures.<\/p>\n<p class=\"&quot;p1&quot;\">O<span class=\"&quot;s2&quot;\">n<\/span>e of the first objects I looked at through a telescope was the <a href=\"\/\/www.skyatnightmagazine.com\/astrophotography\/nebulae\/ring-nebula\/&quot;\">Ring Nebula<\/a>. There was something about the neatly coloured doughnut that appealed, though I soon found that seeing more than a smudge is difficult \u2013 even through a large telescope.<\/p>\n<p><em><strong>More from Chris Lintott:<\/strong><\/em><\/p>\n<ul><li><a href=\"\/\/www.skyatnightmagazine.com\/space-science\/young-stars-universe-study\/&quot;\" target=\"&quot;_blank&quot;\" rel=\"&quot;noopener&quot; noopener noreferrer\"><em><strong>What can young stars tell us about the Universe?<\/strong><\/em><\/a><\/li>\n<li><a href=\"\/\/www.skyatnightmagazine.com\/space-science\/mars-volcanoes-active\/&quot;\" target=\"&quot;_blank&quot;\" rel=\"&quot;noopener&quot; noopener noreferrer\"><em><strong>Are Mars volcanoes still active?<\/strong><\/em><\/a><\/li>\n<li><a href=\"\/\/www.skyatnightmagazine.com\/space-science\/green-pea-galaxies\/&quot;\"><em><strong>What are Green Pea galaxies?<\/strong><\/em><\/a><\/li>\n<\/ul><div class=\"&quot;image-handler__container\" style=\"padding-bottom:\"> <img class=\"&quot;wp-image-34099\" align=\"\" data-src=\"&quot;https:\/\/images.immediate.co.uk\/production\/volatile\/sites\/25\/2019\/05\/Messier-57_aka_ring_nebula-acaa48c.jpg?quality=90&amp;resize=620%2C620&quot;\" width=\"&quot;1280&quot;\" height=\"&quot;1280&quot;\" alt=\"&quot;Hubble\" title=\"&quot;Hubble\" \/><\/div><div class=\"&quot;caption-hold&quot;\"><figcaption class=\"&quot;wp-caption-text&quot;\"><span class=\"&quot;caption-copy&quot;\"><i class=\"&quot;icon-arrow\" \/> Hubble has helped to define the shape of the Ring Nebula, revealing it to be doughnut shaped, with lower density material at its core. Credit: NASA, ESA and the Hubble Heritage (STScI\/AURA)-ESA\/Hubble Collaboration<\/span><\/figcaption><span class=\"&quot;im-image-caption&quot;\" \/><\/div>\n<p class=\"&quot;p1&quot;\">In images, though, especially those that flowed from the <a href=\"\/\/www.skyatnightmagazine.com\/space-science\/hubble-space-telescope-facts-history\/&quot;\">Hubble Space Telescope<\/a>, the complexity of these fragile objects became obvious.<\/p>\n<p class=\"&quot;p3&quot;\">In addition to rings, there are planetary nebulae that look like egg timers, <a href=\"\/\/www.skyatnightmagazine.com\/space-science\/beginners-guide-nebulae\/&quot;\">nebulae<\/a> shaped like butterfly wings and even a singular object that goes by the name of the Red Rectangle.<\/p>\n<div class=\"&quot;image-handler__container\" style=\"padding-bottom:\"> <img class=\"&quot;wp-image-51938\" align=\"\" data-src=\"&quot;https:\/\/images.immediate.co.uk\/production\/volatile\/sites\/25\/2020\/08\/ButterflyNebula-7e4a9ff.jpg?quality=90&amp;resize=620%2C519&quot;\" width=\"&quot;1243&quot;\" height=\"&quot;1041&quot;\" alt=\"&quot;Butterfly\" title=\"&quot;Butterfly\" \/><\/div><div class=\"&quot;caption-hold&quot;\"><figcaption class=\"&quot;wp-caption-text&quot;\"><span class=\"&quot;caption-copy&quot;\"><i class=\"&quot;icon-arrow\" \/> The Butterfly nebula\u2019s 3-lightyear wing-span is created by a dying star as it throws out its outer layers into space<\/span><\/figcaption><span class=\"&quot;im-image-caption&quot;\"> <i>NASA\/ESA\/Hubble<\/i><\/span><\/div>\n<p class=\"&quot;p3&quot;\">Close up, there are substructures \u2013 ribs, stripes and more \u2013 and it\u2019s these smaller scale features that are addressed in a new study concentrating on hourglass-shaped nebulae, several of which seem to display faint filaments that the paper describes as a \u2018spiderweb\u2019 structure.<\/p>\n<p class=\"&quot;p3&quot;\">The Hubble image of the Matryoshka Nebula (below) shows how complicated such objects can be.<\/p>\n<p class=\"&quot;p3&quot;\">A bright central source sits in the middle of the hourglass, the sides of which seem made of almost-transparent gossamer, with a texture that hints at unresolved structure.<\/p>\n<p class=\"&quot;p3&quot;\">Material is believed to be flowing away from the central source and the whole thing sits in a larger, oval nebula consisting of long, curving arcs of glowing cooler gas.<\/p>\n<div class=\"&quot;image-handler__container\" style=\"padding-bottom:\"> <img class=\"&quot;wp-image-100435\" align=\"\" data-src=\"&quot;https:\/\/images.immediate.co.uk\/production\/volatile\/sites\/25\/2021\/09\/MatroshkiNeublaLintottCE-5fe9446.jpg?quality=90&amp;resize=620%2C289&quot;\" width=\"&quot;1181&quot;\" height=\"&quot;550&quot;\" alt=\"&quot;Hubble\" title=\"&quot;Hubble\" \/><\/div><div class=\"&quot;caption-hold&quot;\"><figcaption class=\"&quot;wp-caption-text&quot;\"><span class=\"&quot;caption-copy&quot;\"><i class=\"&quot;icon-arrow\" \/> Hubble images of the Matryoshka Nebula in different wavelengths reveal the extent of its surrounding structure. The arrows (right) indicate spiderweb arcs. Credit: Hubble\/ESA\/D M Clar<\/span><\/figcaption><span class=\"&quot;im-image-caption&quot;\" \/><\/div>\n<p class=\"&quot;p3&quot;\">Whatever is sculpting these structures, it produces symmetry, both north-south through the hourglass lobes and east-west in the spiderweb structure.<\/p>\n<p class=\"&quot;p3&quot;\">The beauty of these objects is transitory, however. Something like the Ring Nebula will exist for only a few tens of thousands of years.<\/p>\n<p class=\"&quot;p3&quot;\">The key insight of the model in the paper, though, is that the planetary nebulae we see today don\u2019t exist in a pristine environment.<\/p>\n<p class=\"&quot;p3&quot;\">The process of atmosphere loss is erratic and takes time, so the star exists surrounded by its own debris.<\/p>\n<div class=\"&quot;image-handler__container\" style=\"padding-bottom:\"> <img class=\"&quot;wp-image-43379\" align=\"\" data-src=\"&quot;https:\/\/images.immediate.co.uk\/production\/volatile\/sites\/25\/2019\/12\/04-ESO-577-24-fd9e29e.jpg?quality=90&amp;resize=620%2C675&quot;\" width=\"&quot;1609&quot;\" height=\"&quot;1751&quot;\" alt=\"&quot;Planetary\" title=\"&quot;Planetary\" \/><\/div><div class=\"&quot;caption-hold&quot;\"><figcaption class=\"&quot;wp-caption-text&quot;\"><span class=\"&quot;caption-copy&quot;\"><i class=\"&quot;icon-arrow\" \/> Planetary Nebula ESO 577-24. Very Large Telescope, 22 January 2019<\/span><\/figcaption><span class=\"&quot;im-image-caption&quot;\" \/><\/div>\n<p class=\"&quot;p3&quot;\">Some of this material, the authors say, must be falling back onto the star and their detection of what seems to be an accretion disc around the central source suggests that there is enough material to make a difference.<\/p>\n<p class=\"&quot;p3&quot;\">When gas is moving, it can become shocked and excited, and it seems like this process can weave the spiderweb structures that we observe.<\/p>\n<p class=\"&quot;p3&quot;\">If the inside of the hourglass is a region where material flows outwards, its edge is a place where material can flow back.<\/p>\n<p class=\"&quot;p3&quot;\">This process is likely to be somewhat chaotic and what appeared to be a precious, permanent jewel in the sky is revealed to be a dramatically dynamic system, as changeable as the pattern of waves on the surface of the sea.<\/p>\n<h1><strong>Planetary nebulae in pictures<\/strong><\/h1>\n<div class=\"&quot;im-gallery\"> <i class=\"&quot;icon-loading&quot;\" data-grunticon-embed=\"\" \/> <div class=\"&quot;standard-grid\"> <div class=\"&quot;row\"> <div class=\"&quot;col-lg-12\"> <figure><div class=\"&quot;image-handler__container\" style=\"padding-bottom:\"> <img loading=\"lazy\" class=\"&quot;wp-image-61236\" src=\"\/\/images.immediate.co.uk\/production\/volatile\/sites\/25\/2021\/04\/01.Abell78-d075110.jpg?quality=90&amp;resize=554%2C720&quot;\" width=\"&quot;556&quot;\" height=\"&quot;723&quot;\" data-crop-width=\"&quot;&quot;\" data-crop-height=\"&quot;&quot;\" alt=\"&quot;Rare\" title=\"&quot;Rare\" style=\"width:\" \/><\/div> <figcaption><div class=\"&quot;caption-hold&quot;\"> <figcaption class=\"&quot;wp-caption-text&quot;\"><span class=\"&quot;caption-copy&quot;\">Rare born-again planetary nebula Abell 78 CREDIT: ESA\/Hubble &amp; NASA, M. Guerrero. Acknowledgement: Judy Schmidt<\/span> <\/figcaption><span class=\"&quot;im-image-caption&quot;\"> <i \/> <\/span>\n<\/div> <\/figcaption><\/figure><\/div> <div class=\"&quot;col-lg-12\"> <figure><div class=\"&quot;image-handler__container\" style=\"padding-bottom:\"> <img loading=\"lazy\" class=\"&quot;wp-image-60195\" src=\"\/\/images.immediate.co.uk\/production\/volatile\/sites\/25\/2021\/03\/10.BipolarNebula_M1-63-b275d9b.jpg?quality=90&amp;resize=368%2C479&quot;\" width=\"&quot;556&quot;\" height=\"&quot;723&quot;\" data-crop-width=\"&quot;&quot;\" data-crop-height=\"&quot;&quot;\" alt=\"&quot;Bipolar\" title=\"&quot;Bipolar\" style=\"width:\" \/><\/div> <figcaption><div class=\"&quot;caption-hold&quot;\"> <figcaption class=\"&quot;wp-caption-text&quot;\"><span class=\"&quot;caption-copy&quot;\">Bipolar planetary nebula M1-63 HUBBLE SPACE TELESCOPE, 8 FEBRUARY 2021 IMAGE CREDIT: ESA\/Hubble &amp; NASA, L. Stanghellini. <\/span> <\/figcaption><span class=\"&quot;im-image-caption&quot;\"> <i \/> <\/span>\n<\/div> <\/figcaption><\/figure><\/div> <div class=\"&quot;col-lg-12\"> <figure><div class=\"&quot;image-handler__container\" style=\"padding-bottom:\"> <img loading=\"lazy\" class=\"&quot;wp-image-57635\" src=\"\/\/images.immediate.co.uk\/production\/volatile\/sites\/25\/2021\/01\/01.DouglasStruble_HFG1-cad47aa.jpg?quality=90&amp;resize=554%2C720&quot;\" width=\"&quot;556&quot;\" height=\"&quot;723&quot;\" data-crop-width=\"&quot;&quot;\" data-crop-height=\"&quot;&quot;\" alt=\"&quot;Planetary\" title=\"&quot;Planetary\" style=\"width:\" \/><\/div> <figcaption><div class=\"&quot;caption-hold&quot;\"> <figcaption class=\"&quot;wp-caption-text&quot;\"><span class=\"&quot;caption-copy&quot;\">Planetary nebula HFG1 Douglas Struble, Taylor, Michigan, USA, 10 November 2018 and 26 November 2020. Equipment: ZWO ASI 1600MM Pro camera, Stellarvue SVX102T-R\/Explore Scientific 152mm apo triplet refractors, Astro-Physics GTO-Mach 1\/Orion Atlas Pro mounts<\/span> <\/figcaption><span class=\"&quot;im-image-caption&quot;\"> <i \/> <\/span>\n<\/div> <\/figcaption><\/figure><\/div> <div class=\"&quot;col-lg-12\"> <figure><div class=\"&quot;image-handler__container\" style=\"padding-bottom:\"> <img loading=\"lazy\" class=\"&quot;wp-image-56891\" src=\"\/\/images.immediate.co.uk\/production\/volatile\/sites\/25\/2020\/12\/13.IC4593-0c3d4aa.jpg?quality=90&amp;resize=554%2C720&quot;\" width=\"&quot;556&quot;\" height=\"&quot;723&quot;\" data-crop-width=\"&quot;&quot;\" data-crop-height=\"&quot;&quot;\" alt=\"&quot;A\" title=\"&quot;A\" style=\"width:\" \/><\/div> <figcaption><div class=\"&quot;caption-hold&quot;\"> <figcaption class=\"&quot;wp-caption-text&quot;\"><span class=\"&quot;caption-copy&quot;\">A bubble of ultra-hot gas in the middle of planetary nebula IC 4593 CHANDRA X-RAY OBSERVATORY\/HUBBLE SPACE TELESCOPE, 12 NOVEMBER 2020. Credit: X-ray: NASA\/CXC\/UNAM\/J. Toal\u00e1 et al.; Optical: NASA\/STScI<\/span> <\/figcaption><span class=\"&quot;im-image-caption&quot;\"> <i \/> <\/span>\n<\/div> <\/figcaption><\/figure><\/div> <div class=\"&quot;col-lg-12\"> <figure><div class=\"&quot;image-handler__container\" style=\"padding-bottom:\"> <img loading=\"lazy\" class=\"&quot;wp-image-52094\" src=\"\/\/images.immediate.co.uk\/production\/volatile\/sites\/25\/2020\/08\/NGC-6886-eb20ed8.jpg?quality=90&amp;resize=530%2C689&quot;\" width=\"&quot;556&quot;\" height=\"&quot;723&quot;\" data-crop-width=\"&quot;&quot;\" data-crop-height=\"&quot;&quot;\" alt=\"&quot;Planetary\" title=\"&quot;Planetary\" style=\"width:\" \/><\/div> <figcaption><div class=\"&quot;caption-hold&quot;\"> <figcaption class=\"&quot;wp-caption-text&quot;\"><span class=\"&quot;caption-copy&quot;\">Planetary nebula NGC 6886, as seen by the Hubble Space Telescope. Credit: NASA\/ESA Hubble<\/span> <\/figcaption><span class=\"&quot;im-image-caption&quot;\"> <i \/> <\/span>\n<\/div> <\/figcaption><\/figure><\/div> <div class=\"&quot;col-lg-12\"> <figure><div class=\"&quot;image-handler__container\" style=\"padding-bottom:\"> <img loading=\"lazy\" class=\"&quot;wp-image-51371\" src=\"\/\/images.immediate.co.uk\/production\/volatile\/sites\/25\/2020\/07\/ngc-2899-planetary-nebula-2be31ab.jpg?quality=90&amp;resize=556%2C723&quot;\" width=\"&quot;556&quot;\" height=\"&quot;723&quot;\" data-crop-width=\"&quot;&quot;\" data-crop-height=\"&quot;&quot;\" alt=\"&quot;NGC\" title=\"&quot;NGC\" style=\"width:\" \/><\/div> <figcaption><div class=\"&quot;caption-hold&quot;\"> <figcaption class=\"&quot;wp-caption-text&quot;\"><span class=\"&quot;caption-copy&quot;\">NGC 2899: double-lobed planetary nebula shines in VLT image. Credit: ESO<\/span> <\/figcaption><span class=\"&quot;im-image-caption&quot;\"> <i \/> <\/span>\n<\/div> <\/figcaption><\/figure><\/div> <div class=\"&quot;col-lg-12\"> <figure><div class=\"&quot;image-handler__container\" style=\"padding-bottom:\"> <img loading=\"lazy\" class=\"&quot;wp-image-46169\" src=\"\/\/images.immediate.co.uk\/production\/volatile\/sites\/25\/2020\/03\/04.Gemini_CVMP-b5a6d79.jpg?quality=90&amp;resize=554%2C720&quot;\" width=\"&quot;556&quot;\" height=\"&quot;723&quot;\" data-crop-width=\"&quot;&quot;\" data-crop-height=\"&quot;&quot;\" alt=\"&quot;Planetary\" title=\"&quot;Planetary\" style=\"width:\" \/><\/div> <figcaption><div class=\"&quot;caption-hold&quot;\"> <figcaption class=\"&quot;wp-caption-text&quot;\"><span class=\"&quot;caption-copy&quot;\">Planetary nebula CVMP 1 Gemini Observatory, 20 February 2020 Credit: The international Gemini Observatory\/NSF\u2019s National Optical-Infrared Astronomy Research Laboratory\/AURA <\/span> <\/figcaption><span class=\"&quot;im-image-caption&quot;\"> <i \/> <\/span>\n<\/div> <\/figcaption><\/figure><\/div> <div class=\"&quot;col-lg-12\"> <figure><div class=\"&quot;image-handler__container\" style=\"padding-bottom:\"> <img loading=\"lazy\" class=\"&quot;wp-image-41306\" src=\"\/\/images.immediate.co.uk\/production\/volatile\/sites\/25\/2019\/10\/Death_Sun_like_star-a9a2df0-e1570445844939.jpg?quality=90&amp;resize=554%2C720&quot;\" width=\"&quot;556&quot;\" height=\"&quot;723&quot;\" data-crop-width=\"&quot;&quot;\" data-crop-height=\"&quot;&quot;\" alt=\"&quot;Planetary\" title=\"&quot;Planetary\" style=\"width:\" \/><\/div> <figcaption><div class=\"&quot;caption-hold&quot;\"> <figcaption class=\"&quot;wp-caption-text&quot;\"><span class=\"&quot;caption-copy&quot;\">Planetary nebula NGC 2022. Credit: ESA\/Hubble &amp; NASA, R. Wade<\/span> <\/figcaption><span class=\"&quot;im-image-caption&quot;\"> <i \/> <\/span>\n<\/div> <\/figcaption><\/figure><\/div> <div class=\"&quot;col-lg-12\"> <figure><div class=\"&quot;image-handler__container\" style=\"padding-bottom:\"> <img loading=\"lazy\" class=\"&quot;wp-image-25776\" src=\"\/\/images.immediate.co.uk\/production\/volatile\/sites\/25\/2019\/04\/dumbell-nebula-c42ec08.jpg?quality=90&amp;resize=408%2C530&quot;\" width=\"&quot;556&quot;\" height=\"&quot;723&quot;\" data-crop-width=\"&quot;&quot;\" data-crop-height=\"&quot;&quot;\" alt=\"&quot;Perhaps\" title=\"&quot;Perhaps\" style=\"width:\" \/><\/div> <figcaption><div class=\"&quot;caption-hold&quot;\"> <figcaption class=\"&quot;wp-caption-text&quot;\"><span class=\"&quot;caption-copy&quot;\">Perhaps the most famous planetary nebula: the Dumbbell Nebula. This image was captured by the VLT in 1998. From its shape, it is easy to see how these nebulae got their \u2018planetary\u2019 name. Credit: ESO<\/span> <\/figcaption><span class=\"&quot;im-image-caption&quot;\"> <i \/> <\/span>\n<\/div> <\/figcaption><\/figure><\/div> <\/div>\n<\/div>\n<\/div> <p class=\"&quot;p1&quot;\"><strong><em>Chris Lintott was reading\u2026 <span class=\"&quot;s1&quot;\">Fallback in Bipolar Planetary Nebulae by Willem A Baan et al. <\/span>Read it online at <a href=\"\/\/arxiv.org\/abs\/2107.14269&quot;\" target=\"&quot;_blank&quot;\" rel=\"&quot;nofollow noopener noreferrer\">arxiv.org<\/a>.<\/em><\/strong><\/p>\n<p><em><strong>This article originally appeared in the October 2021 issue of BBC Sky at Night Magazine.<\/strong><\/em><\/p>\n<hr class=\"no-tts wp-block-separator\" \/>","protected":false},"excerpt":{"rendered":"<p>By Chris Lintott Published: Tuesday, 28 September 2021 at 12:00 am Planetary nebulae are formed during the later stages of a star\u2019s life (the Sun, for example) as instability at the core causes the outer layers of the star to be shed. As the stellar wind pushes material away from the star, it can excite [&hellip;]<\/p>\n","protected":false},"author":24,"featured_media":0,"template":"","categories":[1],"acf":{"readingTimeMinutes":"5"},"uagb_featured_image_src":{"full":false,"thumbnail":false,"medium":false,"medium_large":false,"large":false,"1536x1536":false,"2048x2048":false},"uagb_author_info":{"display_name":"importmanagerhub@sprylab.com","author_link":"https:\/\/c01.purpledshub.com\/bbcskyatnight\/author\/importmanagerhubsprylab-com\/"},"uagb_comment_info":0,"uagb_excerpt":"By Chris Lintott Published: Tuesday, 28 September 2021 at 12:00 am Planetary nebulae are formed during the later stages of a star\u2019s life (the Sun, for example) as instability at the core causes the outer layers of the star to be shed. As the stellar wind pushes material away from the star, it can excite&hellip;","_links":{"self":[{"href":"https:\/\/c01.purpledshub.com\/bbcskyatnight\/wp-json\/wp\/v2\/rss_feed\/24978"}],"collection":[{"href":"https:\/\/c01.purpledshub.com\/bbcskyatnight\/wp-json\/wp\/v2\/rss_feed"}],"about":[{"href":"https:\/\/c01.purpledshub.com\/bbcskyatnight\/wp-json\/wp\/v2\/types\/rss_feed"}],"author":[{"embeddable":true,"href":"https:\/\/c01.purpledshub.com\/bbcskyatnight\/wp-json\/wp\/v2\/users\/24"}],"wp:attachment":[{"href":"https:\/\/c01.purpledshub.com\/bbcskyatnight\/wp-json\/wp\/v2\/media?parent=24978"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/c01.purpledshub.com\/bbcskyatnight\/wp-json\/wp\/v2\/categories?post=24978"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}