Fact-checked by Grok 2 weeks ago

Sombrero Galaxy

The Sombrero Galaxy, also known as Messier 104 (M104) or NGC 4594, is an edge-on spiral galaxy situated in the constellation Virgo, approximately 31 million light-years (9.6 megaparsecs) from Earth.^[1] Renowned for its striking resemblance to a wide-brimmed hat, it features a brilliant white core encircled by thick, dark dust lanes that form the "brim," with an extended, glowing stellar disk visible beyond.^[2] The galaxy spans about 100,000 light-years across and has an apparent magnitude of +8, making it observable with small telescopes but just beyond naked-eye visibility.^[1] First cataloged in the 18th century as part of Charles Messier's comet-hunting list, M104 was confirmed as an extragalactic object in the early 20th century through spectroscopic observations by Vesto Slipher, who measured its recession velocity at around 700 miles per second (1,100 km/s), indicating its distance via the Hubble law.^[2] Its structure includes an unusually large central bulge and a supermassive black hole at its core with a mass equivalent to approximately 9 billion suns, contributing to its dynamic evolution.^[3] The galaxy hosts nearly 2,000 globular clusters—about 10 times the number orbiting the Milky Way—many of which are estimated to be 10 to 13 billion years old, providing insights into early galaxy formation.^[2] Overall, M104 has a total mass comparable to 800 billion solar masses, with its edge-on orientation (tilted slightly at about 6 degrees from our line of sight) offering a unique perspective on spiral galaxy anatomy.^[2] Recent observations from the Hubble Space Telescope and the James Webb Space Telescope (as of 2024) have revealed intricate details in its dust lanes and stellar populations, highlighting low levels of star formation in the disk and a halo of ancient stars in the outer regions.^[4]^[5]^[6] These studies underscore the Sombrero Galaxy's role as a key example of an Sa-type spiral, bridging lenticular and grand-design spirals in morphological classifications.^[2]

General Properties

Morphology and Dimensions

The Sombrero Galaxy, formally designated NGC 4594, is classified as an Sa-type spiral galaxy according to the Hubble sequence, characterized by tightly wound spiral arms and a prominent central bulge that dominates its light profile.^[7] This bulge is exceptionally large and smooth, closely resembling the structure of an elliptical galaxy, while the surrounding disk remains thin and extended, contributing to the galaxy's overall classical spiral morphology.^[8] The combination of these features places it early in the spiral classification, between Sa and Sb types in some de Vaucouleurs revised schemes, emphasizing its evolved, bulge-dominated nature.^[9] Viewed nearly edge-on from Earth, the Sombrero Galaxy exhibits an inclination angle of approximately 84 degrees, which accentuates its iconic "hat-like" silhouette—evoking the broad brim and high crown of a traditional sombrero.^[2] This orientation reveals the thin disk as a narrow, elongated band encircling the bulging core, with the dust lane appearing as a dark equatorial girdle that obscures the inner regions. The edge-on perspective enhances the visual contrast between the luminous bulge and the fainter disk extensions, making it one of the most striking galaxies in the Virgo constellation.^[7] In optical observations, the galaxy subtends an apparent size of 8.6 by 3.5 arcminutes, reflecting its elongated appearance due to the inclination.^[10] Accounting for its distance, this corresponds to a physical diameter of roughly 50,000 to 60,000 light-years across the main disk and bulge structure, comparable to the Milky Way but with a more pronounced central concentration.^[2]^[11]

Distance, Mass, and Luminosity

The Sombrero Galaxy (M104) lies at a distance of approximately 28–31 million light-years (8.6–9.5 Mpc) from Earth, based on multiple independent measurements. The tip-of-the-red-giant-branch (TRGB) method, using Hubble Space Telescope imaging of the resolved stellar populations, provides a distance of 9.55 ± 0.13 Mpc (McQuinn et al. 2016). Surface brightness fluctuation (SBF) analysis yields a somewhat lower value of around 8.9 ± 0.6 Mpc. The recession velocity of 1,024 km/s, measured spectroscopically, implies a redshift-based distance of about 47 million light-years (14.5 Mpc) assuming a Hubble constant of 70 km/s/Mpc, though peculiar velocities in the Virgo region adjust this downward to align with the local measurements. Recent observations including James Webb Space Telescope (JWST) mid-infrared imaging as of 2025 continue to reference distances around 30 million light-years without major revisions.^[12]^[13]^[14] The total mass of the Sombrero Galaxy, encompassing stars, interstellar medium, and dark matter, is estimated at around 8 × 10^{11} solar masses (M_⊙), derived from dynamical modeling of stellar and gas kinematics within the inner ~10 kpc. This includes a substantial dark matter halo contribution, which dominates the mass budget beyond the stellar disk and accounts for roughly 70–80% of the total within the virial radius of ~200 kpc. The stellar mass, inferred from infrared luminosity and mass-to-light ratios calibrated against population synthesis models, is approximately 2.6 × 10^{11} M_⊙, reflecting an evolved population dominated by old, low-mass stars in the bulge and halo. Recent 2025 spectroscopic studies of globular clusters further support these mass profiles by constraining the velocity dispersion and orbital dynamics.^[15]^[16]^[17]^[18] In terms of luminosity, the Sombrero Galaxy exhibits an absolute V-band magnitude of -21.7, equivalent to a total bolometric luminosity of ~4 × 10^{10} L_⊙, primarily from the integrated light of its ~260 billion stars. This places it among the more luminous galaxies in the local universe, with the bulge contributing over half the optical output due to its high stellar density. An infrared excess is evident, arising from the prominent dust ring that absorbs ultraviolet and optical radiation from young stars and re-emits it at longer wavelengths, boosting the far-infrared luminosity by a factor of ~2–3 relative to expectations for a dust-free system. The galaxy's apparent magnitude of 8.0 in V-band renders it accessible to amateur telescopes with apertures greater than 10 cm under good conditions, while its Sa spectral type indicates a smooth continuum dominated by A- to K-type stars with minimal emission lines.^[17]^[6]^[14]

Observation History

Early Discovery and Designation

The Sombrero Galaxy, designated Messier 104 (M104), was first observed on May 11, 1781, by French astronomer Pierre Méchain, a collaborator of Charles Messier in the search for comets and nebulae. Méchain described it in a letter dated May 1783 to Johann Bernoulli, later published in the Connaissance des Temps for 1784, as an "irregular nebula without stars, situated at 12 Virgo, very faint but very extended in longitude."^[15]^[19] Charles Messier independently verified the observation shortly thereafter and added a handwritten note to his personal copy of the catalog, calling it a "very faint nebula" located between the stars η and ζ Virginis, appearing as a luminous patch without resolvable stars.^[20] Although not included in Messier's original published catalog of 1781, the object was formally added as M104 in 1921 by astronomer Camille Flammarion, who discovered Messier's notes and matched them to the position of NGC 4594.^[21] The galaxy received its alternative designations in subsequent astronomical catalogs. It was cataloged as NGC 4594 in the New General Catalogue compiled by John Louis Emil Dreyer in 1888, based on earlier observations, and as UGC 293 in the Uppsala General Catalogue of 1961–1962, which systematized northern sky objects north of -2.5° declination.^[22] These names reflect its integration into broader surveys of deep-sky objects beyond the initial Messier list. In the late 18th century, British astronomer William Herschel independently rediscovered the galaxy on May 9, 1784, during his systematic sweeps of the sky with his reflecting telescopes. Herschel noted its elongated form and, notably, the presence of a "dark stratum" bisecting the disk, which we now recognize as the prominent dust lane characteristic of its edge-on view.^[20]^[23] By the mid-19th century, observations advanced with larger instruments; William Parsons, 3rd Earl of Rosse, observed it in 1845 using his 72-inch (1.8-meter) Leviathan reflector at Birr Castle, one of the era's most powerful telescopes. Rosse's detailed sketches helped confirm the spiral nature of such "nebulae," including M104's structured disk and ring-like features, contributing to the emerging understanding of galactic forms.^[24]

Modern Telescopic Observations

Modern telescopic observations of the Sombrero Galaxy (M104) have advanced significantly since the late 20th century, leveraging space-based instruments to capture ultraviolet, optical, and infrared wavelengths that reveal intricate details obscured by interstellar dust. The Hubble Space Telescope's Advanced Camera for Surveys produced a high-resolution mosaic in 2003, showcasing the galaxy's prominent dust lanes encircling a brilliant central bulge composed of older stars, which highlighted the edge-on spiral structure and provided the first clear views of the stellar distribution in the inner regions.^[4] In the mid-2000s, NASA's Spitzer Space Telescope complemented these optical images with infrared observations, unveiling a smooth, bright ring of dust in the outer disk that glows due to heated polycyclic aromatic hydrocarbons (PAHs) and warmer dust grains, offering insights into the galaxy's cool dust component and its role in obscuring underlying stellar light.^[25] Recent spectroscopic studies in 2025 of globular clusters, building on archival Hubble data, measured metallicity gradients, revealing a mild negative gradient where metal-poor globular clusters increase with radius from the center, suggesting a complex chemical evolution history influenced by mergers or accretion events.^[26] The James Webb Space Telescope (JWST) has further revolutionized imaging with its 2024 mid-infrared observations using the Mid-Infrared Instrument (MIRI), which depict a remarkably smooth inner disk devoid of the expected central bulge glow and expose the clumpy, turbulent nature of the outer dust ring containing PAHs indicative of low-level star formation.^[27] These images also resolved approximately 2,000 globular clusters and dust-obscured stellar populations in the ring, while confirming the supermassive black hole's docile activity with minimal emission, consistent with a low-luminosity active galactic nucleus.^[28] In 2025, JWST's Near-Infrared Camera (NIRCam) extended this by capturing near-infrared light that penetrates the dust, illustrating how the outer ring blocks stellar emission and integrates with prior Hubble and Spitzer data to map the galaxy's full multi-wavelength structure.^[29] Spectroscopic studies, including recent analyses of globular clusters, have derived rotation curves from ionized gas and stellar tracers, confirming a flat profile extending to large radii that requires a substantial dark matter halo to explain the observed velocities.^[30] Post-2020 observations at terahertz frequencies have detected continuum emission up to 2 THz from the nucleus, attributed to a compact jet rather than dust, providing evidence of low-level accretion activity.^[31] Integration of these multi-wavelength datasets, particularly from JWST MIRI with Hubble and Spitzer archives, has enabled comprehensive modeling of the galaxy's dust distribution and energy balance, resolving long-standing ambiguities in its interstellar medium.^[32]

Galactic Structure

Central Nucleus

The central nucleus of the Sombrero Galaxy (NGC 4594) consists of a bright, elliptical-like bulge exhibiting high stellar density and an effective radius of approximately 3 kpc (about 10,000 light-years), dominated by old red stars that contribute the majority of the region's luminosity.^[33] ^[34] This compact core, comprising roughly 90% of the light within several effective radii, displays structural properties akin to classical bulges formed through mergers or secular evolution, with surface brightness profiles fitted by Sérsic indices around 2-4 depending on the model.^[33] The high density arises from the concentration of metal-rich stars, with spatial gradients of 10-20% in metallicity across the inner fields.^[34] The stellar population in the nucleus is ancient, with ages estimated at 10-12 billion years based on isochrone fitting to color-magnitude diagrams, reflecting a metal-rich component ([Fe/H] modal value ≈ -0.5) and a tail of metal-poor stars.^[34] Star formation rates are exceptionally low, consistent with the quiescent nature of the bulge and absence of young, massive stars, as evidenced by the lack of significant blue light excess in UV observations.^[33] Optical and UV spectra from the nucleus predominantly feature absorption lines characteristic of asymptotic giant branch (AGB) stars, underscoring the dominance of evolved, cool giants in this old population; these lines appear in high-resolution studies showing minimal emission from hotter sources.^[35] In X-rays, the nucleus emits via diffuse hot gas at temperatures of ~0.6 keV, with intrinsic luminosities reaching ~2 × 10^{39} erg s^{-1} in the 0.3-2 keV band, likely enriched by Type Ia supernovae and extending outward from the bulge.^[36] Synchrotron radiation in the radio regime, mapped using Very Large Array (VLA) observations at 4.86 GHz, originates from relativistic electrons in ordered magnetic fields within the nuclear region, with central flux densities of ~109 mJy and a spectral index of α ≈ 0.68.^[7] These emissions, polarized and tracing fields of strength 4-6 μG, imply low-level nuclear activity driven by dynamo processes amid the galaxy's differential rotation, without evidence of powerful jets.^[7] Far-infrared and submillimeter (terahertz) observations by the Herschel Space Observatory in the 2010s revealed an unidentified excess emission component in the nuclear vicinity, potentially attributable to heated dust grains or compact molecular gas reservoirs not fully accounted for by stellar heating alone.^[37] As of 2025, the precise origin remains unresolved, with ongoing analyses suggesting contributions from obscured nuclear dust proximate to the inner bulge, though distinct from the outer dust ring.^[37]

Supermassive Black Hole

The Sombrero Galaxy (NGC 4594) harbors a supermassive black hole (SMBH) at its core, with a mass estimated at (9.0 \pm 2.0) \times 10^8 solar masses (M_\odot).^[38] This measurement, derived from axisymmetric orbit-based dynamical modeling, incorporates high-resolution kinematic data from the Hubble Space Telescope (HST), Gemini telescope long-slit spectra, SAURON integral-field unit observations, and globular cluster velocities. The models account for the contributions of the stellar bulge, disk, and dark matter halo, revealing that the SMBH dominates the gravitational potential within the central few parsecs. The primary evidence for this SMBH mass stems from the observed stellar velocity dispersion (\sigma_*), which reaches values around 260–300 km s^{-1} in the nuclear region, indicating high orbital velocities consistent with a central point mass. Dynamical modeling constrains the black hole's influence by fitting the line-of-sight velocity distributions and higher-order velocity moments, excluding alternative explanations such as anisotropic stellar orbits without a compact mass. Although Atacama Large Millimeter/submillimeter Array (ALMA) observations have mapped a molecular gas ring at larger radii (~150 pc), no direct gas dynamical probe of the innermost SMBH region, such as maser emissions, has been detected in NGC 4594.^[39]^[37] The SMBH exhibits low activity, classified as a low-luminosity active galactic nucleus (LLAGN) with a weak radio core emitting at levels typical of sub-Eddington accretion rates. High-resolution radio imaging reveals a compact jet structure extending to scales below 100 pc, supporting radiatively inefficient accretion consistent with an advection-dominated flow. Recent James Webb Space Telescope (JWST) mid-infrared observations in 2024 confirm this "docile" state, showing minimal accretion signatures and no prominent emission from hot dust or outflows around the nucleus.^[40]^[27]^[39] This mass estimate aligns well with the M_\mathrm{BH}-\sigma_* relation for spiral galaxy SMBHs, where NGC 4594 falls within the scatter of established correlations from nearby galaxies.

Dust Ring

The dust ring of the Sombrero Galaxy (M104) forms a prominent, thin, inclined structure composed primarily of molecular gas and dust, extending to a radius of approximately 7.5 kpc (roughly 24,500 light-years) from the galactic center. This ring has a radial width of about 1 kpc and a vertical thickness estimated at around 1,000 light-years, giving it a narrow, disk-like profile when deprojected from the galaxy's near-edge-on inclination of about 84 degrees. Submillimeter and millimeter observations reveal a symmetric distribution without significant substructure, consistent with a relatively stable, outer disk feature.^[41]^[42] The composition of the dust ring includes silicate and carbon grains, akin to those in the interstellar medium of the Milky Way, as inferred from extinction studies matching Galactic laws across optical to near-infrared wavelengths. Mid-infrared spectra from the James Webb Space Telescope in 2024 detected polycyclic aromatic hydrocarbons (PAHs) within clumpy regions of the ring, indicating carbon-rich molecules that emit at specific wavelengths like 7.7 and 11.3 μm. Recent JWST mid-infrared observations in 2024 indicate that the ring produces less than one solar mass of stars per year, highlighting the galaxy's low star formation activity.^[27] The total dust mass is estimated at $1.6 \times 10^7 M_\odot, corresponding to a significant reservoir of material with a gas-to-dust ratio similar to the Galaxy's.^[41] Dynamically, the ring hosts embedded trailing spiral arms traced by molecular gas, with rotation velocities in the ring region reaching approximately 250–300 km s^{-1}, as derived from rotation curve models extending to 10–20 kpc. Observations of a giant stellar stream encircling the galaxy provide evidence of a recent minor merger, likely a "wet" interaction that delivered gas and dust, triggering the ring's formation and current structure.^[43] In optical observations, the dust ring obscures light from the inner disk and bulge, producing a visual extinction of A_V \approx 1–2 mag along lines of sight through the lane, which enhances the galaxy's iconic hat-like appearance. Conversely, in infrared wavelengths, the ring glows brightly from thermal re-emission by heated dust grains, revealing intricate clumps and the underlying spiral features more clearly.^[41]

Stellar Components

Globular Clusters

The Sombrero Galaxy (M104) possesses a rich system of approximately 1,600 globular clusters, based on 2022 photometric studies using Canada-France-Hawaii Telescope data; earlier estimates ranged up to 1,900.^[44] This population is unusually abundant for a spiral galaxy, characterized by a specific frequency S_N \approx 2, which measures the number of clusters per unit galactic luminosity and is slightly elevated compared to typical spirals.^[44] The clusters are predominantly distributed in the extended halo encircling the central bulge, extending out to projected distances of at least 40 kpc, where they trace the galaxy's spheroidal component.^[44]^[45] This system features two distinct subpopulations: metal-poor (blue) clusters, which dominate the outer halo and exhibit higher velocity dispersions indicative of a more dynamically hot component, and metal-rich (red) clusters, which are more concentrated near the bulge and align with the disk's rotational kinematics.^[46]^[45] A 2025 spectroscopic study confirmed this bimodality, with metal-poor clusters showing dispersions ~50 km/s higher than metal-rich ones, supporting accretion origins for the outer halo.^[46] Photometric studies using Hubble Space Telescope data reveal a bimodal color distribution, with blue clusters having colors B - R \leq 1.30 (corresponding to metallicities [Fe/H] < -1) and red clusters B - R > 1.30 ( [Fe/H] > -1), reflecting their differing chemical compositions.^[45] These ancient systems have ages spanning 10 to 13 billion years, typical masses of $10^5 \, M_\odot, and compact half-light radii around 2–3 pc, consistent with classical globular clusters in other galaxies.^[15]^[45]^[46] The formation of M104's globular clusters likely involved a mix of in-situ star formation during the galaxy's early evolution and accretion from disrupted satellite galaxies, as evidenced by the prevalence of blue, metal-poor clusters in the outer halo, which suggest contributions from low-mass progenitors.^[46]

Star Formation Indicators

The Sombrero Galaxy displays a notably low star formation rate, estimated at approximately 0.3 M⊙ yr⁻¹ across the entire system, with activity predominantly localized to the prominent dust ring rather than distributed throughout the disk. This subdued rate aligns with the galaxy's classification as an early-type spiral (Sa), where star formation has largely quiesced compared to more active late-type spirals. Observations applying the Schmidt-Kennicutt relation, which correlates star formation rate surface density with gas surface density, reveal that the ring's molecular gas supports this low efficiency, positioning the Sombrero below the typical locus for starburst galaxies but consistent with normal spirals at sub-kiloparsec scales.^[47]^[37] The interstellar medium fueling this limited star formation includes substantial neutral hydrogen, with an HI mass of about 3.6 × 10⁹ M⊙ derived from 21 cm radio maps that trace the extended disk and ring. Complementing this, molecular hydrogen (H₂) content, inferred from CO(1-0) and CO(2-1) line observations using the Atacama Large Millimeter/submillimeter Array (ALMA), amounts to roughly 0.9 × 10⁹ M⊙, concentrated in a well-defined ring coinciding with the dust lanes. These gas reservoirs indicate a stable, non-turbulent environment where molecular clouds collapse inefficiently, contributing to the galaxy's overall low star formation activity.^[48] Mid-infrared imaging from the James Webb Space Telescope (JWST) has revealed polycyclic aromatic hydrocarbons (PAHs) prominently in the dust ring and extending into the disk, manifesting as bright emissions at wavelengths like 7.7 and 11.3 μm. These complex molecules, excited by ultraviolet radiation from young, massive stars, serve as tracers of recent star formation sites, highlighting pockets of ongoing activity amid the galaxy's predominantly evolved stellar population.^[27] Metallicity measurements from Hubble Space Telescope spectroscopy indicate radial gradients across the disk, with inner regions exhibiting near-solar abundances (Z ≈ Z⊙) that decline outward to subsolar levels, reflecting differential enrichment from past star formation episodes. This gradient supports models of inside-out disk evolution, where central regions experienced more intense chemical processing before outer areas accreted pristine gas, influencing the current subdued star formation.^[49]

Local Environment

Nearby Galaxies

The Sombrero Galaxy (M104) resides in the southern extension of the Virgo Cluster, a filamentary structure where it is surrounded by 14 confirmed satellite galaxies.^[50]^[51] These companions are predominantly dwarf galaxies, including irregular and spheroidal types, with key examples such as UGCA 307 and KKSG 30 at a distance of 9.55 Mpc, matching the Sombrero's own distance, and KKSG 29, a dwarf irregular galaxy located at 9.82 ± 0.32 Mpc, positioning it as a potential close satellite roughly 270 kpc away.^[51] At larger scales within the Virgo complex, prominent members like the giant elliptical M87 lie approximately 7 Mpc distant, contributing to the broader environmental context but not direct companionship.^[51] Evidence for dynamical interactions among these neighbors is subtle, with no prominent tidal tails observed in the Sombrero's disk or halo.^[52] However, Hubble Space Telescope imaging has revealed a giant stellar stream in the inner halo, interpreted as the remnant of a tidally disrupted dwarf galaxy accreted on an eccentric orbit roughly 3 Gyr ago, indicating a minor merger event that contributed to the galaxy's metal-rich outer envelope without disrupting the prominent dust ring.^[52]^[12] The dust ring itself shows no clear signs of recent accretion-driven distortion, though its formation may trace to earlier gravitational perturbations from a dissolved bar or past encounters within the group. Relative radial velocities among the satellites and the Sombrero support gravitational binding, with the galaxy's recession velocity of 892 km/s and mean satellite offsets of ΔV = +62 ± 54 km/s, yielding a velocity dispersion of 204 km/s—consistent with a virialized group rather than unbound interlopers.^[51] Proper motion data from Hubble observations remain limited for these faint dwarfs, but the low radial velocity spreads imply cohesive motion within the group's potential well, estimated at (1.55 ± 0.49) × 10^{13} M_⊙.^[51]

Membership in Galaxy Groups

The Sombrero Galaxy, also known as M104, is located at the southern edge of the Virgo Cluster, a richness class 1 galaxy cluster serving as the dominant structure in the Local Supercluster's vicinity.^[53] While the cluster's core features a prominent subgroup centered on the giant elliptical galaxy M87, M104 resides in the Virgo Southern Extension, a filamentary structure extending southward from the main body.^[54] This positions M104 among an infalling population of galaxies drawn toward the cluster center.^[55] The Virgo Cluster encompasses approximately 1,300 to 2,000 member galaxies, with a virial mass estimated at 6.3 \times 10^{14} , M_\odot.^[54] Galaxies in the southern filament, including M104, exhibit peculiar velocities indicative of infall, approaching the cluster core at roughly 300 km/s.^[54] N-body simulations of cluster formation reproduce this dynamical configuration, placing structures like the Virgo Southern Extension within broader cosmic filaments feeding the cluster.^[54] As an infalling member, M104 faces potential environmental influences from the intracluster medium, including ram-pressure stripping that could truncate its gas disk and suppress ongoing star formation.^[54] This process highlights the evolutionary role of cluster dynamics in shaping edge galaxies like the Sombrero.^[55]

Observational Accessibility

Amateur Astronomy

The Sombrero Galaxy (M104) has an apparent visual magnitude of 8.0, placing it just beyond the reach of the naked eye even under pristine dark-sky conditions, but it becomes a rewarding target for amateur observers equipped with binoculars or telescopes of 4-inch aperture or larger. Located in the constellation Virgo at right ascension 12h 39.9m and declination −11° 37′, it reaches optimal visibility from the northern hemisphere during spring evenings, particularly from May through June when it culminates high in the southern sky after dark. In 10×50 binoculars, the galaxy presents as a compact, fuzzy elliptical patch without resolved details, offering a subtle glow that hints at its structure for patient viewers in low-light environments. For telescopic viewing, the galaxy's edge-on orientation reveals its iconic "sombrero" profile— a bright central bulge encircled by a prominent dust lane—most strikingly at magnifications of 150× or higher in apertures starting at 6 inches, where the contrast between the luminous core and dark ring becomes evident. Observers can enhance the dust lane's visibility by using moderate power eyepieces to frame the object against the starry backdrop of Virgo, allowing the eye to adapt to the subtle gradients over several minutes. While broadband light pollution reduction filters may improve contrast in suburban settings by suppressing urban glow, the galaxy's high surface brightness makes it forgiving for visual observation without specialized narrowband aids. Light pollution poses the primary challenge for urban astronomers, often requiring telescopes of 8- to 10-inch aperture to overcome skyglow and resolve the galaxy's features, as smaller instruments may only show a faint streak in heavily lit areas. M104 remains a classic target whose amateur sketches can be compared to professional Hubble images for a sense of the intricate details beyond visual reach.

Cultural Depictions

The Sombrero Galaxy earned its nickname due to its striking resemblance to a wide-brimmed Mexican sombrero, with the bright central bulge forming the hat's crown and the prominent dark dust lane outlining the brim.^[2] This descriptive name has been in use since at least the early 20th century, reflecting observations of its edge-on appearance that highlight these features.^[4] In popular media, the galaxy has been prominently featured in astronomical imagery released by major space agencies. The Hubble Space Telescope captured a detailed mosaic image of the Sombrero Galaxy in 2003, which became one of the observatory's most iconic depictions and was widely distributed as part of the Hubble Heritage Project.^[2] In November 2024, the James Webb Space Telescope released mid-infrared views of the galaxy using its MIRI instrument, showcasing its dust structures in detail and generating significant public interest through press releases from NASA, ESA, and CSA.^[56] More recently, on April 16, 2025, Hubble released a new image of the galaxy as part of celebrations for the telescope's 35th anniversary, revealing finer details in its disc along with more background stars and galaxies.^[57] Additionally, on June 3, 2025, JWST provided a near-infrared image using NIRCam, highlighting dust in the outer ring blocking stellar light and offering new insights into the galaxy's structure.^[29] These images have appeared in numerous documentaries, such as those produced for educational platforms exploring cosmic wonders.^[58] The galaxy's distinctive shape has inspired various artistic representations beyond scientific imaging. Hubble's photographs have been adapted into posters, fine art prints, and illustrations that emphasize its elegant, hat-like form, making it a popular motif in astronomy-themed decor and educational materials.^[59] In symbolism, it serves as a metaphorical example of spiral galaxy structure in outreach programs, often used to illustrate the diversity of cosmic forms to students and the public.^[60] Renowned for its photogenic qualities, the Sombrero Galaxy frequently ranks among the most beautiful and accessible deep-sky objects in amateur astronomy lists, drawing enthusiasts to capture its features through astrophotography contests and community challenges.^[57]

References

[1]
The Majestic Sombrero Galaxy (M104) - NASA Science
Oct 2, 2003 · The galaxy is 50,000 light-years across and is located 28 million light-years from Earth. Hubble easily resolves M104's rich system of globular ...<|control11|><|separator|>
[2]
Hubble mosaic of the majestic Sombrero Galaxy
At a relatively bright magnitude of +8, M104 is just beyond the limit of naked-eye visibility and is easily seen through small telescopes. The Sombrero lies at ...
[3]
Sombrero Galaxy dazzles in new Webb image
Nov 25, 2024 · This slider tool features two views of the Sombrero Galaxy, also known as Messier 104 (M104). The Sombrero galaxy is around 30 million light-years from Earth.
[4]
[PDF] Radio polarization and sub-mm observations of the Sombrero ...
Oct 28, 2005 · The early-type spiral galaxy NGC 4594 has a spectacular ap- pearance in the optical range with a huge bulge and a promi- nent dust lane. It is ...Missing: dimensions | Show results with:dimensions
[5]
[PDF] arXiv:1807.04922v2 [astro-ph.GA] 17 Jul 2018
Jul 17, 2018 · 4594 (M104), a spiral galaxy, known as the Sombrero galaxy, with a Hubbe type of Sa (de Vaucouleurs et al. 1991) however, it is sometimes ...
[6]
[PDF] Secular evolution of galaxies - arXiv
Apr 12, 2013 · A galaxy may be classified as type SA(rl)0+ and S0b, and the two classifications are more complimentary than contradictory. The same is true for ...
[7]
Sombrero Galaxy (Messier 104) | Deep⋆Sky Corner
M 104 was nicknamed the «Sombrero Galaxy» because of the distinctive dust ring in which new stars emerge. We see the galaxy at an angle of about 6 degrees.Missing: size | Show results with:size
[8]
[PDF] M104: The Sombrero Galaxy
Appropriately called the Sombrero Galaxy, its catalogue name is Messier 104 ... Edge to edge, the Sombrero is 60,000 light-years across, which is slightly.Missing: diameter | Show results with:diameter
[9]
The Strikingly Metal-rich Halo of the Sombrero Galaxy - IOPscience
The Sombrero galaxy (=M104 = NGC 4594) is an enigmatic stellar system ... total stellar halo mass of log(M/M⊙) = 11.1. Repeating these calculations ...
[10]
Messier 104 (The Sombrero Galaxy) - NASA Science
28 million light-years. Apparent Magnitude. 8.0. constellation. Virgo. object ... With an apparent magnitude of 8, the Sombrero Galaxy is beyond the limit ...Missing: diameter | Show results with:diameter
[11]
Orbit-Based Dynamical Models of the Sombrero Galaxy (NGC 4594)
Jul 6, 2011 · We present axisymmetric, orbit-based models to study the central black hole, stellar mass-to-light ratio, and dark matter halo of NGC 4594 (M104, the Sombrero ...
[12]
Distance and mass of the M 104 (Sombrero) group
Near the far edge of this vol- ume at a distance of 9.55 Mpc (McQuinn et al. 2016) there is a bright galaxy M 104 (also known as NGC 4594 or the Sombrero.
[13]
Hats Off to a Spectroscopic Study of Sombrero Galaxy Globular ...
Oct 16, 2025 · M104 is located about 10 Mpc away from us and is the most massive galaxy in its group, coming in at about 2 x 1011 solar masses, which is an ...Missing: Cepheid variables surface fluctuations
[14]
The Sombrero Galaxy's star-forming days are nearly over - Space
Nov 25, 2024 · The total mass of all the Sombrero's stars amounts to 260 billion solar masses, nearly five times greater than all the stars in our Milky Way ...
[15]
Sombrero Galaxy (NIRCam) - NASA Science
DimensionsThe physical size of the object or the apparent angle it subtends on the sky. Image is about 6.0 arcminutes across (52,000 light-years). About the ...
[16]
NASA's Webb Rounds Out Picture of Sombrero Galaxy's Disk | STScI
Jun 3, 2025 · The first written record of this galaxy was noted in 1781, almost 250 years ago, by Pierre Méchain, a French astronomer and surveyor. Méchain ...
[17]
Messier Object 104
Aug 30, 2007 · Messier 104 (M104, NGC 4594) is numerically the first object of the catalog which was not included in Messier's originally published catalog.
[18]
Messier 104: Sombrero Galaxy
Sep 10, 2015 · The Sombrero Galaxy occupies an area 8.7 by 3.5 arc minutes in apparent size, corresponding to a linear diameter of about 50,000 light years.Missing: angular | Show results with:angular
[19]
Observe the Sombrero galaxy - Astronomy Magazine
Apr 2, 2019 · The Sombrero Galaxy (M104) is one of the finest edge-on galaxies in the sky, and it reminds observers of a broad-brimmed hat or a UFO.
[20]
Journey Inside M104 - Universe Today
Mar 15, 2009 · On May 9, 1784 - almost three years later to the date - Sir William Herschel independently recovered the galaxy and whose notes state: "Extended ...
[21]
The search for the nebulae - IX.
... Lord Rosse observed it in his 6-foot (1 8 m) aperture reflector in 184538. M73 An asterism of four stars of magnitudes 104 to 12. Although not a genuine ...
[22]
Spitzer Spies Spectacular Sombrero
May 4, 2005 · This spiral galaxy is located 28 million light years away and is 50,000 light-years across. The Sombrero is one of the most massive objects at ...Missing: true | Show results with:true
[23]
Globular clusters in M 104: Tracing kinematics and metallicities from ...
In this work, we present a comprehensive study of the GC system of M 104 (NGC 4594, also known as the Sombrero galaxy) based on literature spectroscopic ...
[24]
Hats Off to NASA's Webb: Sombrero Galaxy Dazzles in New Image
Nov 25, 2024 · In a new image from NASA's James Webb Space Telescope, a galaxy named for its resemblance to a broad-brimmed Mexican hat appears more like an archery target.Missing: near- | Show results with:near-
[25]
Sombrero Galaxy dazzles in new Webb image - ESA
Nov 25, 2024 · A new mid-infrared image from the NASA/ESA/CSA James Webb Space Telescope features the Sombrero galaxy, also known as Messier 104 (M104).Missing: distance | Show results with:distance
[26]
NASA's Webb Rounds Out Picture of Sombrero Galaxy's Disk
Jun 3, 2025 · NASA's James Webb Space Telescope's new image of the famous Sombrero galaxy in near-infrared wavelengths shows dust from the outer ring blocking stellar light.Missing: PAHs | Show results with:PAHs
[27]
Spectroscopy of Globular Clusters out to Large Radius in the ...
We use this wide-field data set to study the globular cluster kinematics and dark matter content of M104 out to 10′ radius (30 kpc). We find no rotation in the ...Missing: modern | Show results with:modern
[28]
Compact jets dominate the continuum emission in low-luminosity ...
The lowest turnover frequencies are found for the Sombrero galaxy and M87 at 2 THz and 200 GHz, respectively, which are precisely the two objects with the ...
[29]
First Look at JWST MIRI Data of Sombrero and NGC 1052
We present the first results from the Revealing Low-Luminosity Active Galactic Nuclei (ReveaLLAGN) survey, a JWST survey of seven nearby LLAGNs.
[30]
[PDF] Surprises in Image Decomposition of Edge-on Galaxies: does ...
pact central bulge, closer to the disc plane. In ... of the Sombrero galaxy, using the Spitzer image shown in ... yet no young stellar population, as ...
[31]
[PDF] arXiv:1008.2817v1 [astro-ph.CO] 17 Aug 2010
Aug 17, 2010 · In this paper we study for the first time the stellar content of an early type spiral galaxy, the massive disk galaxy, the Sombrero, NGC 4594.
[32]
[PDF] Nuclear Activity in Nearby Galaxies
An excellent of a LINER with a naked type 2 nucleus is the Sombrero galaxy. Although clearly an AGN, it shows no trace of a broad-line component, neither in ...
[33]
[PDF] arXiv:1009.5767v2 [astro-ph.CO] 14 Feb 2011
Feb 14, 2011 · Based on new and archival Chandra observations of the Sombrero galaxy. (M 104=NGC 4594), we study the X-ray emission from its nucleus and ...<|control11|><|separator|>
[34]
A Molecular Gas Ring Hidden in the Sombrero Galaxy - IOPscience
Dec 12, 2022 · We present Herschel, ALMA, and MUSE observations of the molecular ring of Messier 104, also known as the Sombrero galaxy.Missing: excess | Show results with:excess
[35]
ORBIT-BASED DYNAMICAL MODELS OF THE SOMBRERO ...
Taking the bulge and disk components into account in our calculation of σe puts NGC 4594 squarely on the M–σ relation. We also determine that NGC 4594 lies ...
[36]
EVIDENCE FOR A NUCLEAR RADIO JET AND ITS STRUCTURE ...
The Sombrero galaxy (M 104, NGC 4594) is associated with one of the nearest low-luminosity active galactic nuclei (AGNs). We investigated the detailed radio ...
[37]
Sombrero Galaxy dazzles in new Webb image
Nov 25, 2024 · A new mid-infrared image from the NASA/ESA/CSA James Webb Space Telescope features the Sombrero galaxy, also known as Messier 104 (M104).Missing: distance Gaia
[38]
LABOCA and MAMBO-2 imaging of the dust ring of the Sombrero ...
The Sombrero galaxy (NGC 4594) is an Sa galaxy with a symmetric dust ring. ... (1984) find an Hi mass of 3.3 × 108 M (scaled to our adopted distance of. 9.4 ...
[39]
[PDF] Name - Space Math @ NASA
Its diameter is about 50,000 light years. The infrared and optical photographs below were taken with the. Spitzer Infrared Telescope (main) and the Hubble Space ...
[40]
The distribution of mass in the Sombrero galaxy, NGC 4594
It appears that the projection of the dust ring alone can almost completely explain the width of the dust layer as reported by Hacke et al. (1982). This ...
[41]
Panchromatic radiative transfer modelling of stars and dust in the ...
Abstract. We present a detailed study of the dust energy balance in the Sombrero galaxy M104. From a full radiative transfer analysis, including scattering.Missing: detection | Show results with:detection
[42]
[2210.13527] A Molecular Gas Ring Hidden in the Sombrero Galaxy
Oct 24, 2022 · We present Herschel, ALMA, and MUSE observations of the molecular ring of Messier 104, also known as the Sombrero galaxy.Missing: disk black hole
[43]
[2001.01670] The Strikingly Metal-Rich Halo of the Sombrero Galaxy
An important and unexpected result is that the halo of the Sombrero is strikingly metal-rich: even the outer field, located at \sim17 effective radii of the ...
[44]
Distance and mass of the M 104 (Sombrero) group
At a distance of 8 Mpc from the core of the Virgo cluster, the Sombrero galaxy lies at the edge of the zero velocity surface bounding the cluster infall domain, ...
[45]
Tracing the giant stellar stream around the Sombrero galaxy - arXiv
Jun 8, 2021 · Recent evidence of extremely metal-rich stars found in the Sombrero galaxy (M104) halo suggests that this galaxy has undergone a recent major ...Missing: Strikingly | Show results with:Strikingly
[46]
The Herschel Virgo Cluster Survey - I. Luminosity function
It is an Abell richness Class I cluster containing $\sim$ 2000 optically catalogued galaxies (Virgo cluster catalogue, VCC, Binggeli et al. 1985). The Virgo ...
[47]
Structure and kinematics of the Virgo cluster of galaxies
principal aim is to estimate the virial mass of the cluster. For this purpose, we present a sample of 1537 galaxies with radial velocities.
[48]
[PDF] Intense look at Virgo Southern Extension - arXiv
Dec 5, 2012 · ... M104 = “Sombrero” group with mass-to-luminosity ratio M/LK = 38·M⊙/L⊙ is among the most “dark” substructures in the Virgo SEx region. This ...
[49]
The Spectacular Sombrero Galaxy | Space Objects with Interesting ...
May 16, 2022 · / chrispattison22. The Spectacular Sombrero Galaxy | Space Objects with Interesting Names. 3.8K views · 3 years ago ...more. Chris Pattison.Missing: galaxies | Show results with:galaxies
[50]
https://arxiv.org/abs/2412.02060
[51]
101 Must-See Cosmic Objects: The Sombrero Galaxy
May 16, 2022 · The Sombrero Galaxy (M104), named for its resemblance to the famous wide-brimmed Mexican hat, is easily the brightest edge-on galaxy with a prominent ...
[52]
Hubble provides a new view of a galactic favourite
Even the galaxy's central supermassive black hole, which at 9 billion solar masses is more than 2000 times more massive than the Milky Way's ...