Delphinus
Delphinus is a small constellation located in the northern celestial hemisphere, representing a dolphin from ancient Greek mythology and visible primarily during late summer evenings in the Northern Hemisphere.[1] It ranks 69th in size among the 88 modern constellations, covering an area of 189 square degrees.[1] First cataloged by the 2nd-century astronomer Ptolemy as one of the 48 ancient constellations, Delphinus lies near the bright star Altair in Aquila and is bordered by constellations such as Sagitta, Aquila, and Equuleus.[2] In Greek mythology, Delphinus is associated with two prominent tales involving dolphins as divine messengers. One story recounts how the sea god Poseidon dispatched a dolphin to retrieve the nymph Amphitrite, who had fled to hide from him, ultimately winning her affection and establishing her as queen of the sea.[3] The other legend involves the musician Arion, who, after being rescued from treacherous sailors by a dolphin sent by Apollo, saw both the dolphin and his lyre immortalized in the stars as Delphinus and Lyra, respectively.[4] These myths underscore the dolphin's role as a symbol of benevolence and swift aid in classical lore. The constellation's four brightest stars—Alpha Delphini (Sualocin, magnitude 3.77), Beta Delphini (Rotanev, magnitude 3.63), Gamma Delphini (magnitude 3.86), and Epsilon Delphini (magnitude 4.03)—form a distinctive kite-shaped asterism known as "Job's Coffin," with additional fainter stars suggesting the dolphin's tail.[1] Gamma Delphini is a notable double star system, consisting of a yellowish primary and a blue-green companion separated by about 10 arcseconds, located approximately 101 light-years away.[1] Delphinus hosts several stars with confirmed exoplanets: HR 7907, a 6th-magnitude star 108 light-years distant orbited by a Jupiter-mass planet in a 386-day period, and HD 195019, a 7th-magnitude star with a hot Jupiter completing an 18-day orbit.[5] Among its deep-sky objects, the globular cluster NGC 7006 stands out as an 11th-magnitude feature, roughly 130,000 light-years from Earth with a total mass of about 300,000 solar masses, several times that of the similar cluster M71.[5][6] Though faint and requiring dark skies for optimal viewing, Delphinus offers stargazers a compact, historically rich target near the prominent Summer Triangle.[1]Characteristics
Visibility
Delphinus is visible to observers at latitudes between 90° N and 69° S.[7][8] The constellation reaches its highest point in the sky, culminating near the zenith for mid-northern latitudes around 40° N, at 21:00 local time in September.[9][10] As a northern celestial pattern, Delphinus appears prominently in the evening sky during northern summer months, forming part of the broader region around the Summer Triangle asterism.[11] It lies positioned between the neighboring constellations of Aquila to the south and Pegasus to the east.[7] Delphinus has no major meteor showers associated with it, though rare and faint activity such as the Gamma Delphinids has been sporadically observed.[7][9]Extent and boundaries
Delphinus occupies an area of 189 square degrees on the celestial sphere, ranking it as the 69th largest among the 88 modern constellations recognized by the International Astronomical Union (IAU).[12] The constellation's official boundaries, delineated by Belgian astronomer Eugène Delporte and adopted by the IAU in 1930, encompass a right ascension range from 20h 14m 14.1594s to 21h 08m 59.6073s and a declination range from +2.4021468° to +20.9399471°; these limits follow arcs of right ascension and declination to ensure complete coverage of the sky.[9][13] Positioned in the fourth quadrant of the northern celestial hemisphere and straddling the celestial equator due to its low declination extent, Delphinus is bordered by Vulpecula to the west, Sagitta to the northwest, Aquila to the south, Aquarius to the southeast, Equuleus to the northeast, and Pegasus to the east.[7][14]Mythology and History
Greek mythology
In Greek mythology, the constellation Delphinus represents a dolphin that played a key role in the courtship of the sea god Poseidon and the Nereid Amphitrite. When Amphitrite fled Poseidon's advances and hid among the daughters of the Titan Atlas, Poseidon dispatched Delphin, a loyal dolphin-shaped sea daemon, to locate her and persuade her to return. Delphin successfully convinced Amphitrite to accept the marriage, after which Poseidon honored his service by placing him among the stars as the constellation Delphinus.[15][16] An alternative myth associates Delphinus with the poet and musician Arion of Lesbos, who invented the dithyramb. Returning wealthy from a tour in Sicily, Arion was betrayed by the crew of his ship, who plotted to murder him and seize his riches; forced to perform one last song, Arion played his lyre so beautifully that a dolphin, enchanted by the music, emerged to rescue him and carry him safely to Cape Taenarum in the Peloponnese. In gratitude, the gods immortalized both Arion and the dolphin in the heavens, with the latter becoming Delphinus.[17][16] Dolphins, including the figure of Delphinus, held symbolic ties to Apollo, the god of music, prophecy, and poetry, as seen in his epithet Apollo Delphinios ("of the Dolphin"). This connection stems from myths like the Homeric Hymn to Apollo, where the god, after slaying the Python at Delphi, appeared as a dolphin to guide Cretan ships to the site, establishing his oracle; dolphins thus symbolized safe passage at sea and harmony through music, much like Arion's lyre. Representations of dolphins appear frequently in ancient Greek art, such as vase paintings depicting Arion riding a dolphin or Apollo accompanied by marine creatures, and in literature like Oppian's Halieutica, which praises their musical affinity and service to the gods. Similar dolphin myths persisted in Roman mythology, where authors like Hyginus retold the Greek tales of Delphinus in works such as the Astronomica.[16]Non-Western interpretations
In Chinese astronomy, the stars comprising Delphinus lie within the Black Tortoise of the North (Xuanwu), one of the Four Symbols that govern the cardinal directions and seasons, symbolizing winter and the element of water in the northern celestial quadrant.[18] This placement integrates Delphinus into the broader framework of the Twenty-Eight Mansions, where its primary stars form part of the 10th mansion, Nǚ (the Girl), emphasizing themes of extension and linkage in ancient stellar catalogs.[19] Polynesian cultures, reliant on stellar navigation across the Pacific, recognized Delphinus as a distinct pattern with practical and symbolic roles. In Pukapuka (part of the Cook Islands), it is identified as Te Toloa, a key navigational asterism used by voyagers to guide canoes during seasonal migrations.[20] Similarly, in the Tuamotu Archipelago, the constellation appears as Te Uru-o-tiki, interpreted as the prow or figurehead of a mythical canoe, evoking stories of exploration and ancestral voyages across vast ocean expanses.[20] In Hindu astronomy, Delphinus corresponds closely to the Dhanishta Nakshatra, the 23rd of the 27 lunar mansions, spanning from about 23°20' Capricorn to 6°40' Aquarius. Ruled by Mars (Mangala), this nakshatra is symbolized by a dhruva (a sacred drum or flute), representing rhythm, music, and communal prosperity, with its deities including the eight Vasus who embody abundance and natural forces.[21] Delphinus also appears in some Indigenous Australian and African traditions with specific cultural interpretations. In Mabuiag Island (Torres Strait Islander) lore, its stars are known as Buu, the trumpet shell, linked to marine ecology. Among the Tswana people of southern Africa, the constellation is called Gakgala, representing the mopane worm, a valued food source with totemic significance.[22][23]Historical observations
Delphinus was cataloged as one of the 48 ancient constellations by the Greek astronomer Claudius Ptolemy in his seminal work Almagest during the 2nd century CE, where it was described under the Greek name Δελφίν (Delphin), representing a small, distinct grouping of stars near the celestial equator.[24] Ptolemy identified 10 principal stars within its boundaries, positioning it east of Aquila and near the Milky Way, contributing to the foundational framework of Western astronomy that endured for centuries.[25] In Islamic astronomy, the constellation was referred to as Ṣūrat al-Dālfīn, directly translating to "the form of the dolphin," as documented by the Persian astronomer Abd al-Rahman al-Sufi in his Book of Fixed Stars (Kitāb suwar al-kawākib al-thābita) around 964 CE; al-Sufi adapted Ptolemy's delineation while incorporating observations from Baghdad, emphasizing its compact, diamond-like asterism.[26] Additional Arabic designations included Al Dulfīm for the overall figure, evoking a marine creature benevolent to humans, and specific stellar names like Al Ḳaʽūd (the riding camel) for the asterism formed by Alpha, Beta, Gamma, and Delta Delphini.[25] By the medieval period in Europe, following the translation of Ptolemaic and Arabic texts during the 12th-century Renaissance, the constellation was widely adopted under the Latinized form Delphinus, appearing in works like the Alfonsine Tables of 1252 and Geoffrey Chaucer's references as Dolphyne, solidifying its place in Christian scholarly traditions where it sometimes symbolized the Cross of Jesus among Melkite and Nestorian sects.[25] A notable anomaly in Delphinus's observational history emerged in the early 19th century with the naming of its two brightest stars. In the second edition of the Palermo Star Catalogue, published in 1814 by Italian astronomer Giuseppe Piazzi, Alpha Delphini was designated Sualocin and Beta Delphini Rotanev—labels that puzzled astronomers for decades until 1832, when they were identified as inverted anagrams of the Latinized name of Piazzi's assistant, Niccolò Cacciatore (Nicolaus Venator), likely a playful insertion by the young cataloger himself.[27] This incident, stemming from the catalog's compilation at the Palermo Observatory between 1813 and 1820, highlighted the human elements in astronomical record-keeping and remains one of the few documented cases of such whimsical nomenclature in official star catalogs.[28] The advent of the telescope in the 17th century enabled more detailed scrutiny of Delphinus, with early observations in the 18th century revealing its stellar complexities. Astronomers like James Bradley noted the binary nature of Gamma Delphini as early as 1755, describing it as a wide double star system with components separated by about 9 arcseconds, visible even in modest instruments of the era.[29] William Herschel further examined the constellation during his systematic sweeps in the late 1770s and 1780s, confirming Gamma Delphini's duplicity on September 27, 1779, and identifying other potential multiples, such as components near Epsilon Delphini; these findings contributed to the growing recognition of binary stars as gravitational pairs, a concept Herschel formalized in his 1802 paper on stellar systems.[30] Although confirmed variable stars in Delphinus were rare in this period, early telescopic records occasionally flagged brightness fluctuations in stars like Delta Delphini, prompting later 19th-century investigations into their variability, thus marking the transition from naked-eye cataloging to resolved stellar dynamics.[25]Astronomical Objects
Stars
Delphinus hosts three stars brighter than magnitude 4.0 visible to the naked eye, with two additional stars around magnitude 4.4 observable under good conditions. The constellation includes 19 stars bearing Bayer or Flamsteed designations. These form the distinctive "Job's Coffin" asterism, a compact diamond shape representing the dolphin's body, composed of Alpha, Beta, Gamma, and Delta Delphini.[27] The brightest star is Beta Delphini, known as Rotanev, a binary system of F5 subgiants with an apparent magnitude of 3.63, situated approximately 101 light-years away.[31] Nearby in the sky, though slightly fainter, is Alpha Delphini, or Sualocin, a B9 subgiant of magnitude 3.8 at a distance of 237 light-years.[32] Gamma Delphini forms a visual binary with components of magnitudes 4.3 and 5.1, separated by 9.6 arcseconds and orbiting each other over a period of about 3,250 years, at an estimated distance of 115 light-years.[33][34] Delta Delphini, a Delta Scuti variable star exhibiting pulsations with a dominant period of 0.16 days and amplitude of 0.07 magnitude, shines at magnitude 4.43 and lies 221 light-years distant.[35] Epsilon Delphini, marking the dolphin's tail, is a B6 subgiant of magnitude 4.03 at 366 light-years, showing slight variability with brightness fluctuations up to 0.1 magnitude.[36] Zeta Delphini, an A3V main-sequence star of magnitude 4.6, has a wide substellar companion classified as a brown dwarf at a projected separation of 910 AU, with the system located 220 light-years away.[37] Fainter but noteworthy is 18 Delphini, also called Musica, a G6III yellow giant of magnitude 5.5 at 245 light-years, which serves as host to an exoplanet.[38] The constellation has witnessed notable transient events, including the slow classical nova HR Delphini in 1967, which peaked at magnitude 3.5 and took over 230 days to fade by 3 magnitudes from maximum.[39] Similarly, V339 Delphini erupted in 2013, reaching magnitude 4.3 and producing significant lithium through explosive nucleosynthesis.[40] The nearest stellar object in Delphinus is the ultracool brown dwarf WISE 2056+1459, a Y0-type substellar body at about 23 light-years.[41]| Star | Bayer Designation | Apparent Magnitude | Spectral Type | Distance (ly) | Notable Features |
|---|---|---|---|---|---|
| Rotanev | β Del | 3.63 | F5 IV | 101 | Binary subgiants |
| Sualocin | α Del | 3.8 | B9 IV | 237 | Subgiant |
| - | γ Del | 4.3 / 5.1 (components) | F7 V / K0 III-IV | 115 | Visual binary, 9.6" separation |
| - | δ Del | 4.43 | A-type (pulsating) | 221 | Delta Scuti variable |
| Aldulfin | ε Del | 4.03 | B6 IV | 366 | Suspected variable |
| - | ζ Del | 4.6 | A3 V | 220 | Brown dwarf companion at 910 AU |
| Musica | 18 Del | 5.5 | G6 III | 245 | Exoplanet host |
Deep-sky objects
Delphinus hosts a modest collection of deep-sky objects, primarily planetary nebulae and globular clusters, with no Messier objects or prominent galaxies within its boundaries. Despite its position along the Milky Way's edge, the constellation's faintness limits visibility of these features to moderately sized telescopes under dark skies.[1][42] NGC 6891 is a planetary nebula exhibiting a complex, asymmetrical structure with at least two ellipsoidal shells of varying orientations, an expanding spherical outer halo, and interior filaments and knots. The nebula's gas is ionized by its central white dwarf star, producing emission as electrons recombine with hydrogen nuclei; one inner shell is estimated at 4,800 years old, while the outer halo dates to about 28,000 years, suggesting multiple ejection episodes from the progenitor star. With a visual magnitude of 10.4, it appears as a bright, patchy ring and requires telescopes of 8 inches or larger for detailed resolution.[43][44] NGC 6905, known as the Blue Flash Nebula, is a planetary nebula centered on a hydrogen-deficient Wolf-Rayet star of [WR] type, characterized by high excitation due to the central star's intense ultraviolet radiation. The nebula displays a small, blue-hued ring structure and is estimated at a distance of 1,620 ± 480 parsecs, with an apparent magnitude around 11, making it challenging for small telescopes but resolvable as a faint glow in larger instruments. Its central star shows long-period variability, potentially indicating a wide binary system.[45][46] NGC 6934 is a globular cluster classified as concentration class II, located approximately 52,000 light-years away with an apparent magnitude of 10. It spans a modest angular size and contains hundreds of member stars, including variable types such as RR Lyrae and eclipsing binaries, as revealed through CCD photometry. Long considered poorly studied due to its faintness, recent Hubble Space Telescope observations, including UV surveys around 2018, have provided deeper insights into its stellar population and dynamics.[2][47][48] NGC 7006 stands out as one of the most distant globular clusters in the Milky Way, at about 135,000 light-years with a visual magnitude of 10.5 and concentration class I, indicating a dense core. It has a diameter of roughly 150 light-years and is visible in moderate telescopes as a compact, fuzzy patch, though its remoteness contributes to its subdued brightness compared to nearer clusters.[50]Exoplanets
Delphinus hosts several confirmed exoplanetary systems as of November 2025, with discoveries spanning radial velocity, transit, and other methods. The constellation's exoplanets include gas giants and super-Earths, detected around stars such as 18 Delphini, TOI-6883, HR 7907 (Mu Delphini), and HD 195019 (WASP-2).[51] The TOI-6883 system, discovered in 2024 using the Transiting Exoplanet Survey Satellite (TESS), features two gas giant planets orbiting the solar-type star TOI-6883A (TIC 393818343). TOI-6883 b is a warm Jupiter with an orbital period of 16.24921 ± 0.00011 days, a radius of 1.087 ± 0.023 RJ, and a mass of 4.34 ± 0.15 MJ; its high eccentricity of 0.6058 ± 0.0023 places it among the most eccentric warm Jupiters known, with an equilibrium temperature of approximately 806 K.[52] TOI-6883 c, statistically confirmed later in 2024 through ground-based transit observations, is a super-Neptunian gas giant with an orbital period of 7.8458 ± 0.0023 days, a radius of 0.792 ± 0.018 RJ, and a mass of 0.357 ± 0.132 MJ; it orbits 2.05 times closer to the host star than TOI-6883 b.[53] Both planets were identified via the transit method, with follow-up radial velocity and photometric validation by citizen scientists and professional observatories like the Automated Planet Finder.[52][53] Another notable system is around 18 Delphini (also known as HD 199665 or Musica), a K-type giant star. The super-Jupiter 18 Delphini b, nicknamed Arion, was discovered in 2008 using the radial velocity method with the Subaru Telescope's High Dispersion Spectrograph. It has a minimum mass of 10.3 MJ, an orbital period of 993 ± 3 days, a semi-major axis of 2.6 AU, and a low eccentricity of 0.08 ± 0.01.[54] This detection relies on measuring the star's wobble, yielding only a minimum mass (m sin i) without direct imaging or transit confirmation.[54] Mu Delphini (HR 7907), a 6th-magnitude yellow subgiant 108 light-years distant, hosts a Jupiter-mass planet in a 386-day orbit, discovered via radial velocity in 2007.[55] HD 195019 (WASP-2), a 7th-magnitude orange dwarf, has a hot Jupiter planet with an 18.7-day orbital period, detected by the transit method in 2008.[56]| Planet | Host Star | Discovery Method | Year | Orbital Period (days) | Radius (RJ) | Mass (MJ) | Type |
|---|---|---|---|---|---|---|---|
| TOI-6883 b | TOI-6883A | Transit | 2024 | 16.249 ± 0.0001 | 1.087 ± 0.023 | 4.34 ± 0.15 | Warm Jupiter |
| TOI-6883 c | TOI-6883A | Transit | 2024 | 7.846 ± 0.002 | 0.792 ± 0.018 | 0.357 ± 0.132 | Super-Neptune |
| 18 Delphini b | 18 Delphini | Radial Velocity | 2008 | 993 ± 3 | - | ≥10.3 (min) | Super-Jupiter |
| HR 7907 b | HR 7907 | Radial Velocity | 2007 | 386 | - | ~1.0 (min) | Jovian |
| WASP-2 b | HD 195019 | Transit | 2008 | 18.7 | ~1.1 | ~0.86 | Hot Jupiter |