Hubbry Logo
NGC 4414NGC 4414Main
Open search
NGC 4414
Community hub
NGC 4414
logo
8 pages, 0 posts
0 subscribers
Be the first to start a discussion here.
Be the first to start a discussion here.
NGC 4414
NGC 4414
NGC 4414
View on Wikipedia
from Wikipedia

NGC 4414
NGC 4414 as observed by the Hubble Space Telescope (HST)
Observation data (J2000 epoch)
ConstellationComa Berenices
Right ascension12h 26m 27.1491s[1]
Declination+31° 13′ 24.694″[1]
Redshift716 ± 6 km/s[1]
Distance62.3 Mly[2]
Apparent magnitude (V)11.0[1]
Characteristics
TypeSA(rs)c[1]
Size82,500 ly (25.29 kpc) (estimated)[1]
Apparent size (V)3.6 × 2.0[1]
Other designations
ARK 365, IRAS 12239+3129, UGC 7539, MCG +05-29-085, PGC 40692, CGCG 158-108, SDSS J122627.12+311324.5[1]

NGC 4414, also known as the Dusty Spiral Galaxy,[3] is an unbarred spiral galaxy about 62 million light-years away in the constellation Coma Berenices. It was discovered by German-British astronomer William Herschel on 13 March 1785.[4]

NGC 4414 is a flocculent spiral galaxy, with short segments of spiral structure but without the dramatic well-defined spiral arms of a grand design spiral.

The galaxy was imaged by the Hubble Space Telescope in 1995, as part of the HST's main mission to determine the distance to galaxies, and again in 1999 as part of the Hubble Heritage project. It has been part of an ongoing effort to study its Cepheid variable stars. The outer arms appear blue due to the continuing formation of young stars and include a possible luminous blue variable with an absolute magnitude of −10.[5]

NGC 4414 is also an isolated galaxy without signs of past interactions with other galaxies[6] and despite not being a starburst galaxy shows a high density and richness of gas – both atomic and molecular, with the former extending far beyond its optical disk.[7]

NGC 4414 is a member of the Coma I Group, a group of galaxies lying physically close to the Virgo Cluster.[8][9]

Supernovae

[edit]

Four supernovae have been observed in NGC 4414:

  • SN 1974G (Type I, mag. 13) was discovered by Miss W. Burgat on 20 April 1974.[10][11]
  • SN 2013df (Type IIb, mag. 14.4) was discovered by the Italian Supernovae Search Project on 7 June 2013.[12][13]
  • SN 2021J (Type Ia, mag. 12) was discovered by the Automatic Learning for the Rapid Classification of Events (ALeRCE) on 1 January 2021.[14]
  • SN 2023hlf (Type II, mag. 17.8) was discovered by the Zwicky Transient Facility on 1 May 2023.[15]
[edit]

References

[edit]
[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

NGC 4414

View on Grokipedia
from Grokipedia
NGC 4414 is an unbarred located approximately 60 million light-years from Earth in the constellation . Known as the Dusty Spiral Galaxy due to its prominent interstellar lanes, it spans about 56,000 light-years in diameter and features patchy, short segments of spiral arms rich in young blue stars and reddish clouds, contrasting with its older, yellowish central bulge. This 's flocculent morphology, characterized by fragmented rather than well-defined spiral arms, makes it a valuable subject for studying without strong density waves driving arm formation. NGC 4414 has been extensively observed by the /ESA Hubble Space Telescope, including detailed imaging in 1995 and 1999 using the Wide Field Planetary Camera 2, which revealed its intricate dust structures and contributed to early measurements of the universe's expansion rate via the Hubble constant. More recent Hubble observations in 2024 highlighted its overall structure, confirming its role as one of the closest examples of a flocculent spiral. Scientifically, NGC 4414 is notable for hosting two sibling Type Ia supernovae—SN 1974G and SN 2021J—which occurred in close proximity and provided precise data for refining the Hubble constant through star distance measurements. These events, combined with radio and multi-wavelength studies, have helped astronomers probe magnetic fields and gas dynamics in the absence of prominent spiral density waves. Overall, NGC 4414 serves as a key benchmark for understanding intermediate-mass spiral galaxies and their role in cosmic distance scales.

Physical properties

Morphological type and structure

NGC 4414 is classified as an with a Hubble type of SA(rs)c, indicating a lack of a prominent central bar and the presence of incomplete spiral arms with an inner ring structure. This classification highlights its status as a late-type spiral, where the 'rs' denotes a ring-like feature surrounding the nucleus and short spiral segments rather than continuous arms. The exhibits a flocculent spiral morphology, characterized by patchy, short segments of spiral structure distributed across the disk, in contrast to the sweeping, well-organized arms of grand design spirals. These flocculent arms show prominent lanes and regions of active , appearing as brighter knots amid the darker interstellar . The absence of a central bar contributes to the galaxy's relatively undisturbed inner disk, while the small inner ring-like feature encircles the bright central bulge, enhancing the overall architectural complexity. Observed nearly face-on, NGC 4414 presents an elliptical apparent disk measuring approximately 3.6′ × 2.0′, allowing clear views of its spiral patterns and internal features. It resides in the I Cloud, an isolated situated near the , which influences its relatively isolated evolutionary path.

Dimensions and distance

NGC 4414 is situated at a distance of 17.8 Mpc, equivalent to approximately 58 million light-years from , as measured using observations from the final results of the Key Project on the Extragalactic Distance Scale (Freedman et al. 2001). This distance places the in the nearby , allowing detailed study of its structure and dynamics. The recession velocity of NGC 4414, derived from its of z = 0.00238, is 716 ± 6 km/s, indicating its participation in the Hubble flow consistent with the local . The galaxy exhibits an apparent angular size of 3.6′ × 2.0′ as observed in the optical , reflecting its elongated spiral disk viewed at a moderate inclination. At the established , this corresponds to a physical of about 17 kpc, or 56,000 light-years, providing a scale smaller than the Milky Way's disk. NGC 4414's apparent visual magnitude in the B band is 11.0, making it visible to moderately equipped amateur telescopes under dark skies.

Stellar population and

NGC 4414 features a predominantly old in its disk, characterized by a low mass-to-light ratio indicative of evolved stars, with values around 1.0 in the I and K' bands after correcting for . Regions of young, hot stars are present in the flocculent spiral arms, where ongoing contributes to bluer colors and higher M/L ratios up to 4 in obscured areas due to the influence of recent stellar birth. The galaxy exhibits high gas density in its interstellar medium, with atomic hydrogen (HI) and molecular gas components playing key roles. The total HI mass is approximately 4.5 × 10^9 M_⊙, while molecular gas mass reaches about 6.5 × 10^9 M_⊙, resulting in a high surface density comparable to that of the Milky Way despite NGC 4414's smaller size. Both HI and molecular gas extend well beyond the optical disk, with HI reaching up to approximately 2.5 times the optical radius, forming an extended envelope that highlights the galaxy's gas-rich nature. Prominent dust lanes are visible along the spiral arms, obscuring the inner regions and contributing to the galaxy's designation as a dusty spiral, with significant effects up to 1.6 magnitudes in the B band within molecular-rich areas. Additionally, the outer arms host a possible star, exhibiting variability and an around -10, which points to active massive star .

Observational history

Discovery

NGC 4414 was discovered by the German-born British astronomer on March 13, 1785, as part of his systematic sweeps of the northern sky using his homemade reflecting telescopes. These observations were conducted from his observatory in , , where Herschel meticulously cataloged thousands of deep-sky objects, including faint patches of light that appeared nebulous against the starry background. Herschel's initial sighting recorded the object—later designated as h 1421 in his catalog—as a relatively faint and extended feature, requiring clear skies and a of moderate to detect. At the time, such objects were commonly interpreted as nebulae, unresolved clouds of gas within the , though Herschel noted variations in shape and brightness that hinted at diverse natures. This ambiguity reflected the era's limited understanding, with NGC 4414 initially cataloged without recognition of its extragalactic spiral structure. The galaxy was formally included in the (NGC) as entry 4414, compiled by Danish astronomer John Louis Emil Dreyer and published in 1888. Dreyer's work systematized Herschel's observations along with those of his son and other astronomers, providing precise positions and descriptions for over 7,000 nebulae and clusters. NGC 4414's coordinates align with the constellation , placing it among a rich field of galactic and extragalactic objects visible to northern observers. Early 19th-century accounts reiterated its faint, nebulous appearance, observable as a hazy glow in telescopes like those used by during his southern sky surveys, though its true spiral form awaited higher-resolution instruments in the late 19th and early 20th centuries.

Major observations and imaging

In the early 20th century, ground-based observations with large reflectors advanced the understanding of NGC 4414's spiral structure, building on initial visual descriptions by enabling photographic imaging that captured its flocculent arms. The Hubble Space Telescope (HST) conducted significant imaging campaigns of NGC 4414 starting in 1995 using the Wide Field and Planetary Camera 2 (WFPC2). These observations, taken over 13 sessions in three color filters (B at 439 nm, V at 555 nm, and I at 814 nm), revealed intricate dust lanes threading through the galaxy's spiral arms, associated with regions of active star formation indicated by clusters of young, blue stars. The images highlighted the galaxy's central bulge of older, redder stars contrasting with the dust-rich outer disk, providing a detailed view unattainable from ground-based telescopes due to atmospheric distortion. In 1999, HST revisited NGC 4414 as part of the Key Project on the Extragalactic Distance Scale, combining the 1995 WFPC2 data with additional imaging to produce a composite view emphasizing the galaxy's overall morphology and dust distribution for distance calibration efforts. More recently, in 2024, HST imaged the galaxy using the Advanced Camera for Surveys (ACS), offering enhanced resolution that showcased the spiral arms and prominent dust features, including sites of past stellar explosions. NGC 4414 is accessible to amateur astronomers with small telescopes; its of 10.1 makes it observable under using instruments as modest as 4-inch (100 mm) apertures, appearing as a faint, mottled patch. It is best viewed from northern latitudes in spring, when the constellation reaches its highest point in the evening sky. Spectral observations of NGC 4414 have detected prominent Hα emission lines from ionized gas in the spiral arms, tracing H II regions where ongoing excites the . These lines, observed through filters centered at 6575 Å (including nearby [N II] emissions), reveal the distribution of warm ionized gas extending across the disk. High-resolution images further illustrate the flocculent nature of the arms, with patchy, irregular features rather than well-defined spirals.

Scientific significance

Distance scale measurements

NGC 4414 played a significant role in the (HST) Key Project on the Extragalactic Distance Scale during the 1990s, where it served as one of the target galaxies for identifying and measuring stars to establish the . Observations using the Wide Field and Planetary Camera 2 in the V and I bands identified 66 with periods ranging from 5 to 50 days, enabling a precise calibration of their brightness as standard candles. This work contributed to anchoring the lower rungs of the by providing a reliable distance estimate independent of assumptions. The Cepheid-based analysis yielded a reddening-corrected distance modulus of 31.41 ± 0.17 (random) ± 0.16 (systematic) mag, corresponding to a distance of 19.1 ± 1.5 (random) ± 1.4 (systematic) Mpc, or approximately 62 million light-years. This measurement refined the understanding of nearby galaxy distances and supported the project's goal of estimating the Hubble constant (H₀) with 10% accuracy, ultimately contributing to a value of H₀ ≈ 71 km s⁻¹ Mpc⁻¹ from the full dataset. By serving as a calibrator, NGC 4414's distance helped validate secondary indicators for extending measurements to more distant objects. Distances derived from independent methods, such as the Tully-Fisher relation and fluctuations, have yielded results consistent with the Cepheid value, typically in the range of 60-62 million light-years. These alignments confirm the reliability of cross-calibrating distance indicators for NGC 4414, enhancing confidence in the local distance scale. A baseline distance from its recession velocity of approximately 991 km s⁻¹ (in the CMB frame) would imply a smaller value under uniform expansion, highlighting peculiar motions in the local universe. As a member of the Coma I group, situated near the , NGC 4414's refined distance has implications for mapping the structure and dynamics of the local supercluster, revealing deviations from Hubble flow due to gravitational influences. This proximity aids in constraining the expansion rate of the nearby , reducing uncertainties in H₀ determinations and probing large-scale structure effects on cosmic distances.

Supernovae events

NGC 4414 has hosted several observed supernovae, primarily in its spiral arms, providing valuable data on explosive stellar endpoints and serving as standard candles for distance measurements. These events, captured through optical and multi-wavelength observations, highlight the galaxy's active star-forming regions where massive stars evolve to their explosive fates. imaging has mapped the sites of these supernovae, revealing their positions amid the flocculent spiral structure. The first recorded supernova in NGC 4414, SN 1974G, was a Type Ia event discovered optically in at an apparent magnitude of approximately 13. Its light curve reached a peak B-band magnitude of 12.48 ± 0.05 and V-band magnitude of 12.30 ± 0.05, with a decline rate Δm_{15} = 1.11 ± 0.06 mag, consistent with normal Type Ia characteristics. Spectra obtained near maximum light showed typical features of Type I e, including strong Si II absorption lines. As the earliest known in the galaxy, SN 1974G has been revisited in studies comparing it to later events for cosmological distance calibration. SN 2013df, a Type IIb , was discovered on June 7, 2013, by the Italian Supernovae Search Project at an of 14.4. This event was extensively observed across optical, radio, and X-ray wavelengths by multiple facilities, including the , which captured its early evolution. Detailed studies of its and spectra revealed a double-peaked profile indicative of a compact system with significant mass-loss prior to explosion, estimated at around 0.1 solar masses in the final century. The supernova's position in one of NGC 4414's outer spiral arms aligned with expectations for stripped-envelope core-collapse events from massive stars. Another , SN 2021J, was detected by the on January 4, 2021, initially at g-band magnitude 17 but peaking at B-band 12.489 ± 0.028 and V-band 12.282 ± 0.033. Its , monitored over 70 days in BVRI and UVOT filters, yielded a stretch parameter s = 0.975 ± 0.012 and decline rate Δm_{15} = 1.028 ± 0.046, showing it as a sibling to SN 1974G with similar properties. Spectroscopic follow-up confirmed standard Type Ia features, such as Si II and Ca II lines. Analysis of its , combined with the Cepheid-calibrated to NGC 4414, contributed to Hubble constant estimates, yielding H_0 = 72.19 ± 2.32 (stat.) ± 3.42 (syst.) km s^{-1} Mpc^{-1}. Located in a spiral arm, it reinforced the use of Type Ia events as indicators. The most recent supernova, SN 2023hlf, a Type II event, was discovered by the on May 1, 2023, at an of 17.8. Positioned in NGC 4414's spiral structure, it has been monitored for its spectral evolution, revealing hydrogen-rich features typical of core-collapse explosions from progenitors. Hubble imaging included this event in collages documenting sites, aiding in the mapping of history. Like its predecessors, SN 2023hlf supports distance confirmation through comparative studies, though its fainter peak limited detailed analysis. Recent Hubble observations as of continue to utilize NGC 4414's supernovae sites for calibrating distances and studying galaxy evolution.

References

  1. https://www.stsci.edu/contents/news-releases/1999/news-1999-25
  2. https://science.[nasa](/page/NASA).gov/asset/hubble/dusty-spiral-galaxy-ngc-4414/
  3. https://apod.nasa.gov/apod/ap250407.html
  4. https://science.nasa.gov/asset/hubble/dusty-spiral-galaxy-ngc-4414/
  5. https://esahubble.org/images/potw2444a/
  6. https://ui.adsabs.harvard.edu/abs/2022A&A...666A..13G
  7. https://www.aanda.org/articles/aa/abs/2002/40/aa1924/aa1924.html
  8. https://www.aanda.org/articles/aa/full_html/2017/01/aa29480-16/aa29480-16.html
  9. https://www.aanda.org/articles/aa/full_html/2014/06/aa22517-13/aa22517-13.html
  10. https://ui.adsabs.harvard.edu/abs/2001ApJ...553...47F/abstract
  11. https://www.aanda.org/articles/aa/pdf/2002/20/aa2222.pdf
  12. https://arxiv.org/pdf/astro-ph/0412283
  13. https://www.aanda.org/articles/aa/pdf/2002/40/aa1924.pdf
  14. https://ui.adsabs.harvard.edu/abs/1999AAS...194.8202F/abstract
  15. https://www.sci.news/astronomy/hubble-spiral-galaxy-ngc-4414-13375.html
  16. https://cseligman.com/text/atlas/ngc44.htm
  17. http://ui.adsabs.harvard.edu/abs/1888MmRAS..49....1D/abstract
  18. https://esahubble.org/images/opo9925a/
  19. https://theskylive.com/sky/deepsky/ngc4414-object
  20. https://www.aanda.org/articles/aa/pdf/2014/06/aa22517-13.pdf
  21. https://ui.adsabs.harvard.edu/abs/1998ApJ...505..207T/abstract
  22. https://www.aanda.org/articles/aa/pdf/2022/10/aa43988-22.pdf
  23. https://esahubble.org/images/potw2444b/
  24. https://iopscience.iop.org/article/10.1086/306467
  25. https://academic.oup.com/mnras/article/175/3/595/1021489
  26. https://www.aanda.org/articles/aa/full_html/2022/10/aa43988-22/aa43988-22.html
  27. https://academic.oup.com/mnras/article/445/2/1647/1406605
  28. https://arxiv.org/pdf/1312.3984
  29. https://iopscience.iop.org/article/10.3847/0004-637X/818/2/111/pdf
  30. https://arxiv.org/pdf/2204.10668
  31. https://www.wis-tns.org/object/2021j
Add your contribution
Related Hubs
User Avatar
No comments yet.