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Coalsack Nebula

The Coalsack Nebula is a prominent dark nebula in the constellation Crux, visible to the naked eye as an inky black patch obscuring a portion of the Milky Way near the bright star Acrux (Alpha Crucis).^[1]^[2] Located approximately 600 light-years from Earth, it is the nearest substantial dark nebula to the solar system and spans about 30–35 light-years in radius.^[2]^[3]^[4] This dense cloud of interstellar dust and gas, coated with frozen water, carbon monoxide, and simple organic molecules, absorbs and scatters visible light from background stars, creating its characteristic silhouette.^[1]^[3]^[5] One of the most striking features in the southern sky, the Coalsack covers an angular extent of about 5° by 7° and is best observed from dark sites in the Southern Hemisphere during autumn, though it can be seen near the equator in spring from the Northern Hemisphere.^[3]^[2] Its prominence has led to cultural significance, including depictions in Australian Aboriginal astronomy as the head of an emu constellation and in Inca lore as a hole kicked into the Milky Way.^[3] First reported to Europeans by explorer Vicente Yáñez Pinzón in 1499, it was later nicknamed the "Black Magellanic Cloud" due to its dark appearance resembling the Magellanic Clouds.^[1]^[2] Astronomically, the Coalsack serves as a key site for studying interstellar dust dynamics and protoplanetary evolution, as its materials—rich in frozen volatiles—provide the raw fuel for future star formation through gravitational collapse over millions of years.^[1]^[3]^[5] Observations, including those from the Hubble Space Telescope, reveal detailed structures within the nebula, including a protoplanetary nebula representing late-stage stellar evolution.^[2]^[6]

Overview and Location

Description

The Coalsack Nebula is a dark nebula defined as a dense cloud of interstellar dust and gas that obscures background starlight, creating a striking black silhouette against the Milky Way's bright glow.^[1]^[7] This obscuration occurs because the nebula's thick composition absorbs and scatters visible light from stars and other objects behind it, distinguishing it from brighter emission or reflection nebulae.^[4]^[2] Located in the southern celestial hemisphere, the Coalsack stands out as one of the most prominent dark nebulae observable to the naked eye under clear, dark skies.^[8]^[1] Its visual appearance features an irregular, ink-black patch evoking the shape of a cosmic sack or cloud, which sharply contrasts with the surrounding vivid stars.^[1]^[4] Positioned within the plane of the Milky Way, the nebula effectively blocks light from galactic stars in its line of sight, amplifying its dramatic, void-like presence in the night sky.^[2]^[8]

Coordinates and Visibility

The Coalsack Nebula occupies equatorial coordinates of right ascension 12h 50m and declination −62° 30′ in the J2000 epoch.^[9] It is situated primarily within the constellation Crux, with portions extending into the adjacent constellations Centaurus and Musca.^[4] This dark nebula is optimally visible from Earth's southern latitudes below 35° S, where it rises prominently in the evening sky during May.^[10] Lacking an apparent magnitude due to its obscuring nature, the Coalsack spans an angular extent of approximately 7° by 5° against the backdrop of the Milky Way.^[11] Observers can readily identify the Coalsack as a striking dark void silhouetted next to the Southern Cross asterism in Crux, requiring no optical aid under clear, dark skies.^[3]

Physical Characteristics

Composition and Structure

The Coalsack Nebula is primarily composed of cold molecular hydrogen (H₂), which forms the bulk of its gaseous content, alongside interstellar dust grains consisting of amorphous silicates such as olivine and pyroxene compositions, as well as carbonaceous materials including graphite and polycyclic aromatic hydrocarbons.^[12]^[13] Trace molecules, including carbon monoxide (CO) in both gaseous and frozen forms on dust mantles, and neutral sodium (Na I) detected via absorption lines, are also present, contributing to the nebula's chemical complexity.^[14]^[15] Recent studies of the multiwavelength extinction law confirm variations in dust properties across this quiescent, starless molecular cloud.^[16] These components create a dense interstellar medium where H₂ column densities reach approximately 10^{20.68} cm^{-2} along certain lines of sight, supporting the formation of a stable molecular cloud without significant ionization, unlike emission nebulae.^[17] The nebula's density profile exhibits significant variation, with regions of higher opacity corresponding to denser cores that more effectively absorb and scatter background starlight, particularly in the visible wavelengths where dust grains dominate extinction through both absorption and scattering processes. Average molecular hydrogen densities in these cores are around 2.7 × 10³ cm⁻³, though local enhancements form ring-like structures and clumps with elevated column densities, indicating ongoing gravitational influences without widespread collapse. This heterogeneous distribution results in patchy obscuration, with extinction laws showing a steeper rise toward shorter wavelengths due to the size and composition of the dust population. Structurally, the Coalsack presents an irregular, elongated form spanning multiple dark patches, often subdivided into a prominent "head" region and an extended "body," reflecting its complex of overlapping molecular clouds rather than a uniform sheet.^[18] The Coalsack forms the southern portion of the larger Chameleon–Musca–Coalsack cloud complex, which connects into a C-shaped half-ring structure at about 200 pc from the Sun.^[19] These features arise from filamentary arrangements of material, with no embedded sources of ionizing radiation, preserving the nebula's dark appearance across visible and near-infrared spectra. The molecular cores maintain low temperatures of approximately 15–20 K, as inferred from infrared emissions and rotational line widths of tracers like ¹³CO, enabling the persistence of icy mantles on dust grains.^[20] At a distance of about 600 light-years from Earth, this proximity allows detailed mapping of its internal variations.^[18]

Size and Distance

The Coalsack Nebula spans an angular extent of approximately 7° by 5° across the sky, making it one of the largest and most prominent dark nebulae visible to the naked eye.^[14] Positioned at a distance of about 180 parsecs (roughly 600 light-years) from the Sun, it resides within the Sagittarius-Carina spiral arm of the Milky Way. This proximity translates to physical dimensions of the main Coalsack region spanning approximately 60–70 light-years across, delineating a substantial volume of dense interstellar medium that contributes to its opacity through dust absorption.^[13] Although it lies in the general direction toward the galactic center, the nebula is a foreground feature unrelated to the distant Central Molecular Zone.

History and Discovery

Early Observations

The first documented European observation of the Coalsack Nebula occurred in 1499, when Spanish explorer Vicente Yáñez Pinzón reported its existence during his voyage to the southern hemisphere, noting the conspicuous dark patch obscuring the Milky Way near the Southern Cross.^[1]^[7] Subsequent early accounts came from Italian explorer Amerigo Vespucci, who described it in letters from his 1501–1502 voyages as "il Canopo fosco," referring to the dark region that dimmed the surrounding stellar field.^[21] In the mid-18th century, French astronomer Nicolas-Louis de Lacaille included the Coalsack in his catalog of southern celestial objects, compiled during his 1751–1752 expedition to the Cape of Good Hope, where he described it as a notable nebulosity interrupting the Milky Way's brightness.^[8]^[22] By the 19th century, the Coalsack was formally cataloged as a dark nebula in comprehensive southern sky surveys, such as those conducted by John Herschel during his 1834–1838 observations from South Africa, which emphasized its role as an obscuring interstellar cloud rather than a luminous feature.^[23]

Naming and Recognition

The Coalsack Nebula was first reported to European audiences in 1499 by Spanish explorer Vicente Yáñez Pinzón during his voyage across the Atlantic, with subsequent observations by Italian explorer Amerigo Vespucci during his 1501–1502 voyages, who described it as "il Canopo fosco."^[21] Early European explorers often mistook the prominent dark patch for a companion to the Magellanic Clouds, leading to alternative names such as "Macula Magellani" (Magellan's Spot) or the "Black Magellanic Cloud" in 16th-century accounts.^[1] The modern name "Coalsack" emerged in the 19th century among English astronomers, who likened the nebula's dark, opaque silhouette against the Milky Way to a sack filled with coal dust, emphasizing its sooty, light-obscuring appearance.^[24] This descriptive term gained widespread use in astronomical literature by the late 1800s, distinguishing the southern feature from the similarly dark Northern Coalsack in the constellation Cygnus.^[24] In formal astronomical catalogs, the Coalsack is designated as Caldwell 99 (C 99) in the Caldwell Catalogue compiled by Patrick Moore in 1995, which lists visually striking deep-sky objects for amateur observers.^[2] It also appears in the Barnard Catalogue of Dark Objects (B 103), published by American astronomer Edward Emerson Barnard in 1919, which systematically documented 182 prominent dark nebulae based on photographic plates.^[8]

Astronomical Significance

Role in Star Formation

The Coalsack Nebula functions as a molecular cloud complex harboring dense regions of gas and dust that possess the potential for gravitational collapse, marking it as a prospective site for star formation. Infrared extinction mapping has identified compact, high-density structures within its globules, such as the prominent dusty ring in Globule 2, which exhibits a flattened density profile and central cavity indicative of an early evolutionary phase where collapse may initiate the formation of protostellar cores.^[25] These cores, with masses estimated between 6 and 15 solar masses depending on distance assumptions, remain gravitationally bound yet sub-Jeans mass, suggesting a transient state poised for further contraction over timescales shorter than 200,000 years.^[25] The nebula's composition, dominated by molecular hydrogen and obscuring dust grains, enables the shielding of internal regions from pervasive ultraviolet radiation in the interstellar medium, thereby promoting the survival of fragile molecules and maintaining the low temperatures essential for cloud stability and collapse.^[26] This protective envelope fosters conditions for isolated, low-mass star birth, as evidenced by detections of infrared sources embedded within the Coalsack's dark globules during early surveys, which may represent heavily obscured young stellar objects in nascent stages.^[27] However, the overall fraction of dense gas in the complex is notably lower than in actively star-forming clouds like Taurus or ρ Ophiuchi, resulting in minimal current activity and positioning the Coalsack as a young, quiescent dark cloud rather than a prolific nursery.^[26] By acting as a reservoir of cold, dense material, the Coalsack illustrates the broader role of dark nebulae in galactic evolution, where such clouds recycle interstellar matter through eventual star formation, contributing to the replenishment of stellar populations and the maintenance of spiral arm structures in the Milky Way.^[26]

Modern Studies

In the early 21st century, studies of the Coalsack Nebula shifted toward multi-wavelength observations to overcome the obscuration caused by its dense dust, employing ultraviolet, infrared, and radio techniques to map its internal structure and composition. Absorption line spectroscopy in the ultraviolet, such as the analysis of Na I D lines toward 15 background stars, revealed the nebula's velocity field and density variations, with the main component showing radial velocities from -5.1 to -0.8 km s⁻¹ and column densities ranging from 10¹² to 10¹⁴.⁷⁴ cm⁻², indicating a coherent interstellar structure at distances of approximately 180-250 pc. Complementary radio observations in CO lines further delineated molecular components, estimating the total cloud mass at approximately 3500 solar masses based on ¹²CO data. These methods, combined with extinction mapping from near-infrared surveys, enabled the probing of the nebula's three-dimensional morphology, identifying components such as nearby filaments within ~175-250 pc. Infrared imaging has been particularly revealing for identifying embedded stellar populations within the Coalsack's dense cores, such as Globule 2, the highest-density subregion. Near-infrared JHKₛ observations detected over 100 sources aligned along the globule's symmetry axis, including candidate young low-mass stars and brown dwarfs with colors consistent with pre-main-sequence objects, suggesting ongoing low-level star formation driven by material inflow. Mid-infrared data from the Spitzer Space Telescope's IRAC and MIPS instruments confirmed a flat extinction law between 3–8 μm across the cloud, with variations linked to ice mantle growth on dust grains, highlighting the nebula's quiescent nature and low excitation environment. These findings indicate minimal embedded protostellar activity, with dust properties resembling those in other dark clouds but with steeper near-infrared extinction slopes. More recent surveys up to 2025 have refined these insights through comprehensive multi-band extinction analyses, incorporating data from Gaia DR3, 2MASS, GLIMPSE (Spitzer), and WISE to derive a consistent extinction curve with R_V ≈ 5.5, emphasizing the cloud's uniform dust distribution despite its complex layering.^[28] No major discoveries have emerged since 2020, but ongoing millimeter-wave observations with facilities like ALMA continue to target molecular content, building on earlier CO mappings to explore potential dense cores. The Coalsack's proximity facilitates such detailed scrutiny, while anticipated James Webb Space Telescope observations promise further penetration of its infrared veil to uncover fainter embedded features.

Cultural Significance

Indigenous Interpretations

In Australian Aboriginal traditions, the Coalsack Nebula is interpreted as the head of a celestial emu, known as Tchingal in Boorong lore, with its neck and body extending as dark patches along the Milky Way to form the Dark Emu. This figure serves as a key seasonal marker for emu breeding cycles, guiding hunting, gathering, and ceremonial activities among various groups, including the Wardaman, who also view the nebula as a dark cave housing the evil spirit-being Utdjungon, symbolizing moral cautions in their storytelling.^[29]^[30]^[31] Among the Inca, the Coalsack Nebula is identified as Yutu, depicting a tinamou—a ground-dwelling, partridge-like bird—cast as a shadowy avian form against the Milky Way, part of their unique system of dark cloud constellations used to track agricultural cycles, planting seasons, and religious rituals.^[18]^[32] In other southern hemisphere indigenous cultures, such as Maori and Polynesian, the Coalsack appears in pre-colonial lore as a prominent dark cloud or obscured patch within the celestial river (Milky Way), often linked to navigational aids, mythological origins, or tools like fishing nets in wayfinding narratives; for instance, Maori traditions reference it as a "dark-hole" from which figures like the star Rehua emerge in meteor-related stories.^[33]^[34]^[31] These interpretations maintain cultural continuity in modern indigenous astronomy, where communities actively revive and teach traditional sky knowledge through storytelling and education programs, despite threats from light pollution that diminish visibility of the nebula and disrupt ancestral connections to the night sky.^[35]^[29]

In Literature and Media

The Coalsack Nebula features prominently in Kenji Miyazawa's 1934 novella Night on the Galactic Railroad, where it is depicted as a vast, starless expanse symbolizing a dark river of cosmic mystery during the protagonist's journey aboard a fantastical train traversing the Milky Way.^[36] In this allegorical tale, the nebula's absence of light underscores themes of isolation and existential reflection, with the young narrator Giovanni confronting loss amid the void.^[37] Similarly, the Coalsack Nebula serves as a key navigational landmark in Jerry Pournelle and Larry Niven's CoDominium science fiction series, particularly in the 1974 novel The Mote in God's Eye, where it delineates the Trans-Coalsack sector as a distant frontier region separating human colonies from unexplored space. The nebula's obscuring dust clouds are portrayed as a strategic barrier, influencing interstellar politics and exploration in subsequent works like The Gripping Hand (1993), where a protostar within it threatens regional stability. In visual media, the Coalsack Nebula has been vividly represented in astronomy documentaries and planetarium presentations produced by the European Southern Observatory (ESO), including fulldome videos from 2015 that immerse viewers in its dusty silhouette against the Milky Way for educational outreach. These depictions highlight its role as a prominent dark nebula, often zooming from wide galactic views to reveal faint embedded stars, fostering public appreciation of interstellar dust dynamics. Early inspirations trace to 19th-century astronomical artwork, where observers like John Herschel described its hole-like appearance in the southern sky, influencing later artistic renderings of cosmic voids.^[38] Within broader popular culture, the Coalsack Nebula evokes an eerie void in science fiction narratives, drawing on its light-blocking properties to amplify themes of the unknown, akin to the cosmic horror elements in H.P. Lovecraft's works that emphasize vast, indifferent emptiness.^[39] It frequently appears in educational media as an exemplar of dark nebulae, illustrating how dust clouds obscure background starlight in resources from NASA and EarthSky, which use its visibility to teach concepts of interstellar absorption.^[40]^[41] In recent years, the Coalsack Nebula has gained renewed attention in 2020s astronomy applications and online videos, often spotlighted under its nickname "Black Magellanic Cloud" to dramatize its contrast with luminous galaxies like the Magellanic Clouds, as seen in outreach content from the American Astronomical Society. This moniker enhances its portrayal as a shadowy counterpart, engaging digital audiences through interactive sky maps and high-definition simulations that emphasize its accessibility from the Southern Hemisphere.

References

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A Cosmic Sackful of Black Coal - Eso.org
Oct 14, 2015 · The inky areas are small parts of a huge dark nebula known as the Coalsack, one of the most prominent objects of its kind visible to the unaided eye.
[2]
Caldwell 99 - NASA Science
Aug 23, 2024 · Visible to the unaided eye as it obscures part of the Milky Way, dark Caldwell 99 is better known as the Coalsack Nebula.
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Sep 9, 2022 · The Coalsack Nebula is a famous dark nebula, a large void in the Milky Way, and a cloud of interstellar dust 600 light-years away.Missing: facts | Show results with:facts
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Oct 14, 2015 · The Coalsack Nebula is a huge cloud of dust and gas that absorbs and scatters the light from background stars.Missing: facts | Show results with:facts<|control11|><|separator|>
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ESO Astronomers Zoom in on Mysterious Coalsack Nebula - Sci.News
Oct 14, 2015 · Like other dark nebulae, the Coalsack Nebula is actually an interstellar cloud of gas and dust so thick that it prevents most of the background ...<|control11|><|separator|>
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Oct 27, 2015 · The nebula's darkness is the result of dust particles blocking the visible light of stars in the background. The little background starlight ...
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Dec 20, 2011 · The Coalsack is the most prominent and conspicuous dark nebula in the skies, well visible to the naked eye as big dark patch in the Milky Way.
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Optimum Visibility, April (Usually visible from southern latitudes). Notes, A vast dark cloud stretching across dozens of light years in the direction of the ...
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the Coalsack Nebula. This dark nebula appears as a prominent black patch ...
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May 8, 2018 · The Coalsack is the most prominent dark nebula in the sky and is easily visible to the naked eye as a dark patch or hole in the southern Milky ...
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Silicate Composition Toward The Coalsack Dark Cloud Complex
To quantitatively assess the dust composition, our model includes Mg-rich amorphous silicates of olivine and pyroxene stoichiometry and amorphous water ice.Missing: Nebula carbon compounds Na
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Jul 22, 2013 · This suggests that the Coalsack nebula may be a young molecular cloud complex in the earliest stages of evolution. The globules within the ...
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Jan 1, 2024 · One of the most popular dark nebulae in the heavens, the Coalsack is roughly the same size and shape as Crux (about 5° by 7°), darkening the surrounding Milky ...Missing: composition H2 CO temperature density profile structure body
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Abstract. The interstellar Na i D absorption-line profiles observed for 15 stars with lines of sight towards the Southern Coalsack are analysed.
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Mar 8, 2001 · The line of sight has a total molecular hydrogen column density, log N(H2) = 20.68 \pm 0.05 cm^{-2}, nearly identical to that toward Zeta Oph, ...
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Mar 22, 2021 · Just below Crux, a dark, irregular shape is silhouetted against the central band of our galaxy. This is a prominent dark nebula lying just 600 ...Missing: structure | Show results with:structure
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Jul 3, 2002 · Abstract page for arXiv paper astro-ph/0207099: A Near-Infrared Imaging Survey of Coalsack Globule 2. ... For a gas temperature T \sim 15 K, this ...
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Song and dance were very important to Indigenous Australian cultures ... The head of Tchingal is the Coalsack, the dark nebulae next to the Southern Cross.Missing: awareness | Show results with:awareness
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seems to be that by Amerigo Vespucci during his third voyage in 1501–1502: E fra le altre viddi tre Canopi: i due erano molto chiari, il terzo era fosco e ...Missing: Canopo | Show results with:Canopo
[20]
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One of the earliest catalogues of deep sky objects is the one prepared in the 1750's by Abbe Nicholas Louis de la Caille (1713–1762), who has the distinct ...Missing: 19th century
[21]
Open Cluster NGC 4609 & Coalsack Nebula | Deep⋆Sky Corner
It completely obscures the light from stars and other objects located behind it. Many of the dust particles within dark nebulae are coated with frozen water, ...
[22]
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Apr 23, 2012 · Generally, all of these objects are “coalsacks.” Brave mariners sailing the southern seas centuries ago applied that name to any dark vacancy in ...
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[PDF] arXiv:1306.4441v1 [astro-ph.GA] 19 Jun 2013
Jun 19, 2013 · Moreover, the fraction of dense gas in the Coalsack complex is considerably smaller than that of typical star forming cloud complexes, as ...
[25]
IR sources in the Southern Coalsack | Nature
IR sources in the Southern Coalsack. Download PDF. Letter; Published: 31 January 1980. IR sources in the Southern Coalsack. M. J. Smyth &; M. E. ...
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Oct 22, 2018 · Aboriginal Australians may be the world's first astronomers, as stargazing plays a crucial part in the ancient cultures of the 300 or so Aboriginal communities.
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In War- daman traditions of the Northern Territory, the Coalsack Nebula is seen as a dark cave in which the evil spirit-being Utdjungon lives.
[28]
A Comparison of Dark Constellations of the Milky Way - ResearchGate
Aug 7, 2025 · We conduct a comparative analysis of cultural perceptions of dark constellations in the Milky Way, examining common cultural themes and meanings ...
[29]
[PDF] Meteors in the Māori Astronomical Traditions of New Zealand - arXiv
The star is said to have come as a “flaming star from out of the dark-hole”, a reference to the Coalsack nebula near the Southern Cross. Rehua flew across ...
[30]
A Polynesian Astronomical Perspective: The Maori of New Zealand
... Coal Sack, both Magellanic Clouds, and even the Zodiacal Light. There also were names for comets and meteors. Yet, even with this rich history, our ...
[31]
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Light pollution erases the night sky, destroying the ability to see stars, which is critical for Indigenous traditions and cultural continuity, acting as a ...
[32]
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Night on the Galactic Railroad and Miyazawa's larger corpus fit snugly into ... Astronomically speaking, the Coalsack Nebula is a dark area near the ...
[33]
SFE: Night on the Galactic Railroad - SF Encyclopedia
Night on the Galactic ... The train approaches the Coalsack Nebula, with the friends the only passengers left, but their Perceptions differ: Campanella (who ...
[34]
The Southern Sky - The Orkney News
Dec 18, 2022 · ... nebula of dust and gas known as 'The Coal-Sack', which Sir John Herschel thought was an actual hole in the Milky Way (Fig. 6). Not everyone ...
[35]
Unobtainium - Atomic Rockets
Aug 24, 2022 · ... H. P. Lovecraft. Hawking concluded by reminding us that Albert ... You can't see stars on the far side of the Coalsack Nebula because ...
[36]
Observing a Dark Nebula - NASA
Dec 8, 2021 · This stunning image captures a small region on the edge of the inky Coalsack Nebula, or Caldwell 99.
[37]
Is this region empty of stars? | Today's Image - EarthSky
Oct 17, 2015 · This image from the Wide Field Imager on the MPG/ESO 2.2-metre telescope shows part of the huge cloud of dust and gas known as the Coalsack Nebula.