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IC 342
IC 342
IC 342
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IC 342
Euclid telescope image of the IC 342 galaxy
Observation data (J2000 epoch)
ConstellationCamelopardalis
Right ascension03h 46m 48.5028s[1]
Declination+68° 05′ 46.924″[1]
Redshift31 ± 3 km/s[1]
Distance10.7 ± 0.9 Mly (3.3 ± 0.3 Mpc)[2][3]
Apparent magnitude (V)9.1[1]
Characteristics
TypeSAB(rs)cd[1]
Number of stars100 billion
Size~150,000 ly (45.62 kpc) (estimated)[1]
Apparent size (V)21.4 × 20.9[1]
Other designations
IRAS 03419+6756, UGC 2847, MCG +11-05-003, PGC 13826, CGCG 305-002, C 5[1]

IC 342 (also known as Caldwell 5) is an intermediate spiral galaxy in the constellation Camelopardalis, located relatively close to the Milky Way. Despite its size and actual brightness, its location behind dusty areas near the galactic equator makes it difficult to observe, leading to the nickname "The Hidden Galaxy",[4][1] though it can readily be detected even with binoculars.[5] If the galaxy were not obscured, it would be visible by naked eye[citation needed]. The dust makes it difficult to determine its precise distance; modern estimates range from about 7 million light-years (Mly)[6] to about 11 Mly.[2] The galaxy was discovered by William Frederick Denning in 1892.[7] It is one of the brightest in the IC 342/Maffei Group, one of the closest galaxy groups to the Local Group. Edwin Hubble first thought it to be in the Local Group, but it was later determined not to be a member.[8]

In 1935, Harlow Shapley found that it was wider than the full moon, and by angular size the third-largest spiral galaxy then known, smaller only than the Andromeda Galaxy (M31) and the Triangulum Galaxy (M33).[9] (Modern estimates are more conservative, giving the apparent size as one-half to two-thirds the diameter of the full moon).[1][5]

It has an H II nucleus.[10] In 2020, the galaxy KKH 32 was identified as the first known satellite of IC 342 that is a dwarf spheroidal galaxy. Unlike galaxies with large bulges such as the Andromeda Galaxy, IC 342 has relatively few dwarf satellite galaxies. KKH 32 is located about 10.2 million light-years (3.12 megaparsecs) away, and has a diameter of about 4,300 light-years (1.32 kiloparsecs).[11]

Hubble Space Telescope image of the central region of IC 342, showing the central star cluster and surrounding dust lanes.[4]

See also

[edit]
  • NGC 6946 – similar galaxy heavily obscured by Milky Way stars and dust.

References

[edit]
[edit]
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IC 342

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IC 342 is an Scd in the constellation , located at an estimated distance of 7–11 million light-years from . It is the dominant member of the IC 342/Maffei Group, one of the closest galaxy groups to the Local Group at a distance of roughly 3.3–3.5 megaparsecs. Positioned near the of the , IC 342 is heavily obscured by foreground and gas, earning it the nickname "Hidden Galaxy" and making it a challenging target for observation despite its proximity and size. The appears nearly face-on, revealing a prominent spiral structure with well-defined arms containing numerous H II regions and young star clusters indicative of ongoing . Its nucleus hosts a bright core of hot, massive and ionized , powered by a starburst region that has been forming thousands of over millions of years. With an apparent visual magnitude of 8.4 and an of about 21 arcminutes—comparable in extent to the —IC 342 is visible to astronomers using telescopes with apertures of 150 mm or larger, though its low and obscuration demand . IC 342 serves as an important nearby analog to the , offering insights into evolution, molecular gas dynamics, and populations through observations by telescopes like Hubble and . 's imaging, as of 2023, has revealed details of its populations, including . Studies highlight its central feedback mechanisms, where stellar winds and supernovae influence gas inflows along a nuclear spiral. The galaxy's physical diameter is estimated at around 50,000–75,000 light-years, underscoring its status as a grand design with active processes.

Overview

Location and Visibility

IC 342 occupies a position in the northern celestial sky within the constellation Camelopardalis, at equatorial coordinates of right ascension 03h 46m 48.5s and declination +68° 05' 46". In galactic coordinates, it is situated at longitude l = 138.2° and latitude b = +10.6°, positioning it perilously close to the plane of the Milky Way. This low galactic latitude results in significant foreground obscuration from interstellar dust and gas within our galaxy, which dims and reddens the light from IC 342, rendering it one of the more challenging nearby galaxies to observe visually. The presents an apparent visual magnitude of 8.4 and spans an angular size of approximately 21.4' × 20.9' on the sky, making it comparable in extent to the but with a diffuse, low that complicates detection under light-polluted conditions. Optimal visibility occurs from northern latitudes, particularly during the winter months when is well-placed above the horizon in the evening sky for observers in the . Amateur astronomers typically require dark sites and telescopes of at least 4-inch aperture to discern its hazy glow against the starry backdrop. The primary observational hurdle stems from interstellar along the line of sight, estimated at A_V ≈ 2 magnitudes due to foreground material, which attenuates the galaxy's light and shifts its colors toward the red end of the spectrum. Without this , IC 342 would appear significantly brighter, potentially ranking among the most prominent galaxies visible to the . and longer-wavelength observations mitigate these effects, revealing more of the galaxy's intrinsic .

Basic Parameters

IC 342 exhibits an of approximately -20.5 in the V-band, reflecting its status as a luminous comparable to the . This corresponds to a total of about 101010^{10} solar luminosities (LL_\odot), establishing its scale as a massive system within the local . The galaxy's is +30 km/s relative to the heliocentric frame, indicating a small recession from the . Its systemic velocity with respect to the Local Group is lower than the expected Hubble flow, consistent with membership in the IC 342/Maffei group, which has an average of about 230 km/s. In optical wavelengths, IC 342 subtends an apparent size of roughly 21 arcminutes across, though its extended emission in the spans about 0.5 degrees due to diffuse and gas structures. The average is approximately 24.9 mag/arcsec², contributing to its challenging visibility amid galactic foreground obscuration. The of IC 342 is z0.0001z \approx 0.0001, affirming its proximity at around 3-4 Mpc and alignment with standard cosmological expansion without notable deviations.

Discovery and History

Initial Discovery

IC 342 was discovered on August 19, 1892, by the British astronomer William Frederick Denning, a prolific observer of nebulae and comets using his 10-inch from . The object was first described as a pretty bright but very small , with a conspicuous 12th-magnitude star immediately to its north, appearing as an irregular or diffuse patch without any resolved . This contributed to the ongoing late 19th-century surveys of faint celestial objects, building on earlier catalogs like the , though no spectroscopic analysis was performed at the time to reveal its composition or distance. Although Edward Emerson Barnard had independently noted the nebula on August 11, 1890, in the Lick Observatory logbook during his visual sweeps, he did not publish the finding, leading Dreyer to credit Denning in the inaugural Index Catalogue of Nebulae published in 1895. In the context of early nebular astronomy, IC 342 represented one of the fainter extragalactic systems cataloged before the , though its true nature as a distant was not appreciated until decades later.

Catalog Designations and Early Studies

IC 342 was cataloged in the Index Catalogue of Nebulae and Clusters of Stars, published by J. L. E. Dreyer in 1895 as the first supplement to the of Nebulae and Clusters of Stars. The object was discovered earlier by British astronomer William F. Denning on August 19, 1892, using a 10-inch reflector from , , and described as a pretty bright, very small ; Dreyer credited Denning in the publication. In contemporary unified catalogs, IC 342 appears as UGC 2847 in the Uppsala General Catalogue of Galaxies and PGC 13826 in the Principal Galaxies Catalogue. It was also designated Caldwell 5 in the , a list of 109 prominent deep-sky objects compiled by British astronomer to complement the Messier Catalogue, and published in the December 1995 issue of Sky & Telescope magazine. Early 20th-century observations provided initial insights into IC 342's structure and nature. In his 1926 study of extragalactic nebulae, Edwin Hubble analyzed spectra of IC 342 obtained at Mount Wilson Observatory, noting bright emission lines from hydrogen (Hβ and Hγ) alongside narrow, sharp absorption features typical of gaseous nebulae in spirals. This spectroscopic evidence confirmed IC 342's extragalactic status and led Hubble to classify it as an Sc-type spiral galaxy, emphasizing its resemblance to other bright spirals like M33. Pre-1950 distance estimates for IC 342 varied due to its obscuration by dust, with initial assessments in the 1920s and 1930s placing it at roughly 1 million light-years (about 0.3 Mpc) based on and size comparisons to known spirals. Refinements in the 1940s, informed by Walter Baade's pioneering work on Cepheid variables in nearby galaxies like M31, suggested distances around 1-2 Mpc, establishing IC 342 as a relatively close extragalactic system despite observational challenges.

Physical Characteristics

Morphology and Classification

IC 342 is classified as an SAB(rs)cd galaxy in the Hubble morphological sequence, indicating an intermediate spiral with a weak bar and loosely wound arms, while the de Vaucouleurs revised system places it between Sb and Sc types due to its transitional features. This classification reflects its overall structure as a late-type spiral without a prominent central bulge, characteristic of cd subtypes. The exhibits a nearly face-on orientation with an inclination of approximately 31°, allowing clear views of its disk and spiral features. Its morphological traits include prominent, loosely wound spiral arms that dominate the disk, contributing to its low central concentration. These arms show high , leading to its designation as a driven by intense activity. In terms of comparisons, IC 342 resembles the (M101), another SAB(rs)cd system, in the openness of its spiral arms but on a smaller scale. The presence of arm asymmetries suggests an evolutionary stage influenced by past interactions or a minor merger, potentially triggering its current starburst phase.

Distance, Size, and Mass

IC 342 lies at a distance of 3.45^{+0.13}_{-0.13} Mpc (11.3 million light-years) from , as determined by the tip of the (TRGB) method applied to observations during the 2010s. This measurement places the galaxy in the IC 342/ group, a structure beyond the Local Group but still relatively nearby on cosmic scales. The physical diameter of IC 342 spans approximately 21 kpc (68,000 light-years) for the optical extent, making it comparable in scale to the inner disk of the , while the HI diameter extends to ~50 kpc. This size is calculated from the galaxy's observed θ (typically ~21 arcminutes, or 1260 arcseconds) and distance D using the for linear size d in parsecs:
d=θD206265,d = \frac{\theta \, D}{206265},
where θ is in arcseconds and D is in parsecs (with 206265 arcseconds per converting the angular measure to radians). Substituting D ≈ 3.45 \times 10^6 parsecs yields d ≈ 21,000 parsecs, or 21 kpc. The total dynamical mass of IC 342 is estimated at ~1.7 \times 10^{11} M_⊙, derived from its rotation curve, which reaches a maximum velocity of ~170 km s^{-1} at ~4.8 kpc (with evidence of rise beyond). Dynamical models indicate that dark matter in the halo contributes significantly to this mass, with the remainder from stars, gas, and dust.

Structure and Components

Spiral Arms and Disk

IC 342 exhibits a grand design spiral structure characterized by two prominent main spiral arms that extend across its disk. These arms follow a logarithmic pattern with a pitch angle of approximately 10°-25°, varying with radius, as measured from optical and radio observations. The arms are prominently traced by concentrations of young, massive stars and associated dust lanes, which create the characteristic banded appearance visible in broadband imaging. A 2023 high-resolution CO(1-0) survey reveals multiple spiral arms within 5 kpc, with the eastern arm showing higher contrast, possibly due to mild interaction with a neighboring galaxy, and connecting to outer H I arms extending to ~20 kpc. The galactic disk of IC 342 is thin and flattened, with a vertical estimated at around 300 pc for the neutral component, indicative of a dynamically stable structure dominated by gravitational forces. The stellar disk extends radially to approximately 8 kpc, encompassing the primary regions of arm development before transitioning outward. In the outer disk, beyond about 6 kpc, the structure becomes more flocculent, featuring short, fragmented arm segments and irregular substructures rather than continuous spirals. Molecular gas dominates within ~6.7 kpc, with surface densities peaking at ~600 M_⊙ pc⁻² in the central regions. Observations reveal slight asymmetries in the disk, including a warping that becomes evident beyond 9 kpc, potentially arising from tidal distortions due to past gravitational interactions. Possible companion galaxies like A0355, with a small difference of ~50 km/s consistent with group membership, may explain these features, supported by evidence of mild interactions in recent molecular gas studies. The disk's stellar content includes a predominant old population and younger stars formed in the past few hundred million years, primarily along the spiral arms, contributing to recent star formation activity.

Nucleus and Bar

The nucleus of IC 342 hosts a compact nuclear star cluster with a dynamical mass of approximately 6 × 10^6 M_⊙ and an effective radius of about 1.4 pc. This cluster is dominated by an intermediate-age stellar population exceeding 1 Gyr, with a minor young component (<100 Myr) contributing roughly 2% to the mass but up to 10% to the B-band luminosity. Observations suggest the possible presence of a low-mass supermassive black hole candidate, though current data provide only an upper mass limit of 5 × 10^5 M_⊙, with no definitive detection. X-ray imaging reveals a nuclear source that could indicate low-level active galactic nucleus activity, potentially resembling Seyfert 2 characteristics, but this remains unconfirmed amid dominant starburst emission. IC 342 exhibits a weak central bar, classified as SAB(rs)cd, with elongated isophotes indicating a possible pseudo-bar extending roughly 4 kpc in length (semi-major axis ~2 kpc). This bar is prominent in molecular gas distributions, forming narrow ridges that fuel nuclear activity through inflows, including curved gas lanes and a ~100 pc star-forming pseudoring. The bar rotates with velocities reaching approximately 150 km/s in the inner regions, consistent with rigid-body motion rather than a fixed pattern speed. The bulge component in IC 342 is small and classical in nature, typical of late-type spirals, with an extent of about 1 kpc and lacking a prominent dust ring. It comprises intermediate-age stars integrated into the nuclear cluster dynamics, contributing to the overall central concentration without dominating the profile. The nucleus shows a bright central molecular with a rate of ~0.2 M_⊙ yr⁻¹ within 1.5 kpc, potentially influenced by bar-driven gas inflow. Dynamical models of IC 342 attribute the steep inner rise in the rotation curve—reaching velocities of 100–150 km/s within the central kiloparsec—to the of the weak bar. This potential drives non-circular gas motions and supports orbital s that may originate the inner spiral arms, with trailing density waves extending beyond the inner Lindblad resonance, though no clear ILR is present due to the gradually rising curve.

Star Formation and Activity

HII Regions and Starburst Features

IC 342 exhibits numerous prominent HII regions, with a comprehensive atlas identifying 666 such features across the galaxy's disk. These regions are key sites of ongoing , where clusters of massive O and B stars emit radiation that ionizes surrounding gas, producing the characteristic emission lines observed in Hα and other spectra. Recent narrow-band imaging has confirmed additional HII regions, including 203 in targeted fields, highlighting their distribution along the spiral structure. The galaxy's rate () is estimated at approximately 2.5 M_⊙ yr⁻¹ galaxy-wide, marking it as mildly elevated by a factor of about 1.3 compared to typical spiral galaxies like the . Around 80% of this is concentrated in the spiral arms, where dense concentrations of gas and dust facilitate rapid star birth. High gas densities, exceeding 100 cm⁻³ and reaching up to several thousand cm⁻³ in molecular clouds, provide the fuel for these bursts, as traced by tracers like [CII] emission. Studies of star clusters in IC 342 often adopt a Salpeter (IMF) to model the stellar populations, consistent with observations of massive star content in the HII regions. This IMF implies a rate of roughly 0.025 yr⁻¹ based on the , though localized rates in the nuclear starburst may be higher, driving galactic outflows at velocities around 100 km/s as evidenced by kinematic studies of ionized and molecular gas. These outflows represent feedback from and stellar winds, regulating further by dispersing gas. Recent observations (as of 2023) have provided insights into populations and feedback mechanisms in IC 342's star-forming regions.

Gas and Dust Content

The interstellar medium (ISM) of IC 342 is dominated by neutral atomic hydrogen (HI) gas, which forms an extended envelope tracing the galaxy's outer disk. Observations at the 21 cm wavelength reveal a total HI mass of approximately 109M10^9 M_\odot, distributed asymmetrically with a low-brightness extension reaching up to about 15 kpc from the nucleus. The HI emission profile exhibits a line width of around 250 km/s, reflecting the rotational dynamics of the disk with a maximum velocity of about 170 km/s at larger radii. Molecular gas, primarily traced by (CO) emission, is more concentrated in the inner regions and spiral arms, supporting active processes. The total mass of molecular (H2_2) inferred from CO observations is on the order of 3×108M3 \times 10^8 M_\odot, with the bulk residing within the central few kiloparsecs. This results in a high CO-to-HI ratio, indicating dense molecular clouds that comprise a significant of the gas reservoir in the arms, unlike the more diffuse HI distribution. Dust in IC 342 contributes to internal and is intertwined with the gaseous components, with an estimated total of about 107M10^7 M_\odot assuming a standard gas-to-dust . Internal visual reaches AV1A_V \sim 1 mag along lines of sight through the disk, particularly in the denser regions. Mid-infrared spectra reveal prominent absorption features at 9.7 μ\mum and 18 μ\mum, characteristic of amorphous grains in the . Kinematically, the gas closely follows that of the stellar disk, with turbulent linewidths in molecular clouds averaging around 10 km/s, suggesting ongoing dynamical interactions within the .

Observations and Research

Observational Challenges

Observing IC 342 presents substantial challenges due to its location behind the dense disk of the in the constellation , leading to extensive galactic confusion from overlapping foreground stars, gas, and nebulae. At a galactic of b = 10.6°, the galaxy is embedded in a crowded stellar field, where the high density of Milky Way objects obscures fine structural details and introduces significant confusion noise in images. This crowding restricts in optical and near-infrared observations to scales greater than 1 arcsecond, preventing the clear separation of individual features within the galaxy from foreground contaminants. Wavelength-dependent observational difficulties further complicate studies of IC 342, as heavy interstellar extinction in the optical regime—estimated at A_V ≈ 2.4 magnitudes—absorbs and blue light, rendering much of the galaxy's emission invisible at shorter wavelengths. Dust along the line of sight not only dims the apparent brightness but also reddens the spectrum, requiring multiwavelength approaches to reconstruct a complete view. and radio observations are essential to penetrate this obscuration; for instance, imaging at 3.6 μm effectively reveals dust-penetrated structures and star-forming regions that are hidden in visible light. The galaxy's high declination of +68° exacerbates visibility issues for observers in the , where IC 342 reaches maximum altitudes below 20° above the horizon, even from equatorial sites, resulting in increased atmospheric distortion and reduced observing time. This low elevation contributes to a northern hemispheric in astronomical surveys, as most major telescopes are situated in the north, limiting comprehensive data collection from southern facilities. Additionally, data contamination arises from foreground Galactic H II regions that mimic the ionized gas emissions of IC 342, necessitating techniques such as to measure radial velocities (around 35 km/s systemic for the galaxy versus near-zero for Galactic features) or analysis to distinguish true members from interlopers.

Key Telescopic Studies

The (HST) has conducted pivotal imaging campaigns on IC 342, beginning with Wide Field Planetary Camera 2 (WFPC2) observations in the 1990s and early 2000s that resolved individual stars in the outer regions, achieving spatial scales of tens of parsecs. These data enabled accurate distance determinations via the tip of the (TRGB) method by identifying the luminosity discontinuity in evolved stars. For instance, Tikhonov and Galazutdinova (2010) analyzed WFPC2 photometry to measure a TRGB distance of 3.9 Mpc, confirming IC 342's membership in a nearby group. Subsequent Advanced Camera for Surveys (ACS) and () observations in the extended this resolution to approximately 10 pc, incorporating near-infrared bands for reduced extinction effects and yielding refined TRGB estimates. Wu et al. (2014) utilized HST F110W and F814W imaging to derive an infrared TRGB distance of 3.45 Mpc, averaging optical results for robustness against dust. Infrared surveys have illuminated the interstellar medium of IC 342, with Spitzer Space Telescope's Infrared Array Camera (IRAC) mapping from 2004 to 2009 revealing intricate dust lanes in the spiral arms through 8 μm polycyclic aromatic hydrocarbon emission and 24 μm warm dust tracing star-forming regions. As part of the Spitzer Infrared Nearby Galaxies Survey (SINGS), these observations highlighted the twisted dust web structure, linking dust distribution to ongoing star formation. Complementing this, Herschel Space Observatory far-infrared photometry from the Key Insights on Nearby Galaxies: A Far-Infrared Survey with Herschel (KINGFISH) in 2010–2012 detected cool dust emission across 70–500 μm wavelengths, quantifying the cold dust reservoir with temperatures around 20–30 K. Dale et al. (2012) reported integrated far-infrared fluxes, estimating a dust mass of approximately 10^8 M_⊙ and revealing radial gradients in dust heating. Radio has mapped IC 342's gaseous components extensively. () neutral hydrogen (HI) observations from the 1980s through the 2010s delineated an extended HI disk exceeding 20 kpc in diameter, with asymmetric and warped features indicative of tidal interactions or accretion. Crosthwaite et al. (2000) presented VLA D-array maps at 21 cm, showing total HI mass of ~2 × 10^9 M_⊙ and outer envelope extensions beyond the optical disk. Atacama Large Millimeter/submillimeter Array (ALMA) CO since 2015 has resolved molecular gas on ~100 pc scales, detecting high-velocity CO(2–1) components suggestive of nuclear molecular outflows driven by starburst feedback. The Physics at High in Nearby GalaxieS (PHANGS) survey provided these arcsecond-resolution maps, revealing molecular gas masses of ~10^9 M_⊙ and outflow velocities up to 50 km/s. Multiwavelength syntheses in the 2020s, including (JWST) observations, provide resolved views of nuclear at sub-parsec scales, building on prior infrared data to dissect young stellar populations amid dust. XMM-Newton from 2005 observations detected diffuse hot gas emission at 0.3–2 keV, attributed to supernova-heated plasma in the starburst nucleus, with luminosities around 10^{39} erg/s. Cui et al. (2011) analyzed these data alongside earlier epochs, confirming the hot gas as a hallmark of vigorous . The Euclid space telescope's 2023 observations of IC 342, part of its early release science images, offer high-resolution visible and near-infrared views that penetrate some obscuration, revealing detailed spiral structure and populations despite foreground challenges. These studies collectively affirm IC 342's starburst characteristics through correlated gas dynamics and energetic feedback.

References

  1. https://science.nasa.gov/mission/hubble/science/explore-the-night-sky/hubble-caldwell-catalog/caldwell-5/
  2. https://iopscience.iop.org/article/10.1086/313255
  3. https://www.esa.int/Science_Exploration/Space_Science/Euclid/Euclid_s_view_of_spiral_galaxy_IC_342
  4. https://arxiv.org/abs/0808.0793
  5. http://simbad.u-strasbg.fr/simbad/sim-basic?Ident=IC+342
  6. https://esahubble.org/images/potw1727a/
  7. https://arxiv.org/abs/astro-ph/0610044
  8. https://www.constellation-guide.com/hidden-galaxy-ic-342/
  9. https://www.aanda.org/articles/aa/full_html/2020/06/aa37993-20/aa37993-20.html
  10. https://ui.adsabs.harvard.edu/abs/2003A%26A...408..111K/abstract
  11. https://theskylive.com/sky/deepsky/ic342-object
  12. https://www.aanda.org/articles/aa/full_html/2015/06/aa25572-14/aa25572-14.html
  13. https://cseligman.com/text/atlas/ic3.htm
  14. https://ui.adsabs.harvard.edu/abs/1895MmRAS..51..185D/abstract
  15. https://www.researchgate.net/publication/342146333_NGCIC_Historical_and_other_References
  16. https://www.deepskycorner.ch/obj/ic342.en.php
  17. https://www.webbdeepsky.com/galaxies/object/IC342
  18. https://www.galactic-hunter.com/post/ic342
  19. https://astropixels.com/caldwell/caldwellcat.html
  20. https://ui.adsabs.harvard.edu/abs/1926ApJ....64..321H/abstract
  21. https://time.com/archive/6755044/science-i-c-342/
  22. https://www.astronomy.com/observing/deep-sky-dreams-ic-342/
  23. https://www.aanda.org/articles/aa/full_html/2023/12/aa43023-21/aa43023-21.html
  24. https://www.astro.ucla.edu/~lucian/papers/ic342.hi.pdf
  25. https://ntrs.[nasa](/page/NASA).gov/citations/19930017593
  26. https://iopscience.iop.org/article/10.1088/0004-6256/148/1/7
  27. https://arxiv.org/abs/1404.2987
  28. https://adsabs.harvard.edu/full/1988A%26A...192...66G
  29. https://adsabs.harvard.edu/full/1979A%26A....80..255R
  30. https://escholarship.org/content/qt3634g66n/qt3634g66n.pdf
  31. https://iopscience.iop.org/article/10.3847/1538-4357/ad2171
  32. https://ui.adsabs.harvard.edu/abs/1983AJ.....88..296H/abstract
  33. https://ui.adsabs.harvard.edu/abs/2013SerAJ.185...70V/abstract
  34. https://astrodrudis.com/ic-342-caldwell-5/
  35. https://www.aanda.org/articles/aa/abs/2012/06/aa18935-12/aa18935-12.html
  36. https://iopscience.iop.org/article/10.1088/0004-637X/737/1/40
  37. https://arxiv.org/abs/1706.04663
  38. https://iopscience.iop.org/article/10.1086/301302
  39. https://arxiv.org/pdf/astro-ph/0407509
  40. https://iopscience.iop.org/article/10.1088/0067-0049/184/2/230
  41. https://iopscience.iop.org/article/10.1086/313255/fulltext/39629.text.html
  42. https://www.jpl.nasa.gov/images/pia14402-a-twisted-star-forming-web-in-the-galaxy-ic-342/
  43. https://adsabs.harvard.edu/full/1989AJ.....97.1341M
  44. https://iopscience.iop.org/article/10.1088/0004-637X/745/1/95
  45. https://iopscience.iop.org/article/10.1086/301297
  46. https://iopscience.iop.org/article/10.3847/1538-4365/ac17f3
  47. https://iopscience.iop.org/article/10.1088/0004-637X/728/1/10
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