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Double sunset
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Midsummer double sunset at Chrome Hill in Derbyshire, England. The Sun sets behind the hill (left) before re-emerging (right) to set again in the valley.

A double sunset is a rare astro-geographical phenomenon, in which the Sun appears to set twice in the same evening from a specific viewing-point. A double sunrise may also occur in a similar situation. Such phenomena may have been regarded as significant in prehistoric times, and double sunsets have been discussed in the context of archaeoastronomy by researchers such as Alexander Thom.[1] The different meanings of "double sunset" refer to the solar eclipse, when the most significant phase is observed shortly before or after the geometrical sunset. In turn, an observer might see two moments with the same level of illumination, adequate to typical sunset or twilight conditions.[2] The phenomenon is alternatively called "double sunrise" or "double dusk", "double dawn" and was reported in Shaanxi Province on April 21, 899 BC following morning annular solar eclipse [3]

Italy

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Orasso, a small village near the Italy-Switzerland border, sees two sunrises and two sunsets during the winter because of Mount Riga.[4]

Spain

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In the town of Güímar in Tenerife a double sunset has been observed in alignment with the local pyramids at summer solstice.[5] In Spanish the phenomenon is described as a doble puesta. The site of the pyramids appears to have been used by the Guanche prehispanic culture, but the structures themselves have been dated to the 19th century.

United Kingdom

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England

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Bosley Cloud

Staffordshire

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A well-documented example of a double or occulted sunset is associated with Leek, Staffordshire, England. The phenomenon is viewable from the town on and around the summer solstice in good weather.[6][7][8]

The first published mention of the Leek double sunset was made in 1686 by Dr Robert Plot in his book The Natural History Of Stafford-Shire.[9] The phenomenon would have been visible well before the seventeenth century. However, the alignment of sun and landscape is subject to change over the centuries as it is affected by the Earth's axial precession. This was realised by Plot who suggested that the sunset could be used to measure the obliquity of the ecliptic.[10][a]

The traditional location for observing the phenomenon, as described by Plot, is the churchyard belonging to the parish church of St Edward the Confessor. The church is a medieval building, and it has been conjectured that the churchyard is an example of an ancient sacred site having been Christianised. Because of the chronology of the changing alignment, it seems that the site could not have been a viewing-point for the double sunset before the Iron Age. The first people to view the phenomenon may have been the area's Iron Age inhabitants.[10]

From a particular point in the churchyard, the whole of the Sun set on the summit of Bosley Cloud, a millstone grit hill six miles to the northwest. The Sun partially reappeared from The Cloud's steep northern slope and soon afterwards set for a second and final time on the horizon.[11] The spectacle was last reliably witnessed, and filmed, from the churchyard in 1977,[12][13] but is no longer visible from the location because of the presence of trees.[14][15] It is, however, still observable from Leek on and around the summer solstice from the road to Pickwood Hall, off Milltown Way,[16] and from Lowe Hill on the outskirts of the town.[17] Better viewing points, though, are from the A 523, above Rudyard Lake,[18] and Woodhouse Green,[19] both of which are nearer to The Cloud and therefore enable a larger proportion of the sun to reappear.

Derbyshire

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  • Thorpe Cloud. Viewed from the top of nearby Lin Dale on and around the summer solstice and perhaps beyond. The Sun sets on the summit of the hill, partially reappears from its steep northern slope and sets for a second and final time shortly afterwards.[20]

Scotland

[edit]

In the 1950s Alexander Thom surveyed a megalithic site at Kintraw, a locality on the mainland of Scotland, which is in an area rich in prehistoric sites.[21] Thom interpreted the site at Kintraw as a viewing point of a double sunset on the island of Jura (both the island and the mainland site are in Argyll and Bute).[1] The proposed alignment is to a notch at a distance of 28 miles between the mountains of Beinn Shiantaidh and Beinn a' Chaolais which are visible from Kintraw.[22]

The 4 metre high standing stone at Kintraw.

Thom described the site as a type of midwinter observatory, but his interpretation has been the subject of controversy, one point at issue being the visibility of the midwinter notch: a higher observation point is needed to see the midwinter notch on Jura over a nearby ridge. Euan MacKie, recognising that Thom's theories needed to be tested, excavated at the site in 1970 and 1971, and found evidence for an observation platform.[23]

Notes and references

[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Double sunset

View on Grokipedia
from Grokipedia
A double sunset is a rare astro-geographical phenomenon in which the Sun appears to set twice during the same evening when observed from a particular viewpoint on Earth. This visual effect arises when a nearby topographical feature, such as a hill or ridge, briefly occults the setting Sun near the summer solstice, causing it to dip out of sight momentarily before reappearing above the obstruction and setting fully. The effect depends on precise alignment between the observer's location, the Sun's path at solstice (when it reaches its northernmost of approximately 23.44°), and a local that interrupts the Sun's descent toward the horizon. Such alignments are uncommon, occurring only at select sites worldwide where natural or artificial features create the necessary geometry, and the phenomenon has been visible at some locations for due to the slow of Earth's . One of the most well-documented examples is observed from the churchyard of St. in , , where the Sun aligns with the silhouette of The Cloud hill. This double sunset was first recorded in 1686 by naturalist Dr. , the inaugural keeper of the at , who described it in his work The Natural History of Staffordshire and used it to calculate date and the ecliptic's obliquity with notable accuracy for the era. Plot's observation highlighted the site's potential astronomical significance, possibly dating back to or cultures, as nearby archaeological features suggest intentional orientation toward solstice events. Modern analyses, including those by astronomer Kevin M. C. Kilburn in the late , confirm the alignment has persisted for over 10,000 years and will remain visible for about another 500 years before shifting due to , after which it will reappear around AD 12,500. Similar double sunsets have been reported at other geographically unique spots, such as elevated viewpoints in the and coastal or mountainous sites where solstice sunlight grazes intervening landforms, though detailed scientific documentation remains limited outside of . The phenomenon underscores the interplay of astronomy, , and human observation in revealing subtle patterns in the .

Overview

Definition and Mechanism

A double sunset is a rare astro-geographical phenomenon in which the Sun appears to set twice during the same evening from a specific viewpoint, resulting from the interaction between the Sun's apparent path and local . This optical effect creates the illusion of the Sun dipping below the horizon, briefly re-emerging, and then setting fully, typically observable near when the Sun's position aligns precisely with elevated landscape features. The mechanism relies on strict geometric requirements at the observation point, where the Sun's —the horizontal direction of its path—must align with a foreground hill, ridge, or similar obstruction. As the Sun descends toward the horizon due to , it first passes behind this elevated feature, temporarily blocking the and simulating an initial sunset. Moments later, the Sun re-emerges over a , , or lower point in the , allowing a brief second appearance before it clears the obstruction and sets definitively against the unobstructed distant horizon or . This alignment is highly sensitive to the observer's precise location, often limited to a narrow vantage such as a hilltop or elevated structure, where the varying elevations of the create sequential horizons. Key factors influencing the occurrence include the Sun's —the north or south of the —and the observer's . Near , the Sun reaches its maximum declination of approximately 23.5° north, shifting its daily arc northward and lowering its maximum altitude at higher latitudes, which facilitates the necessary low-angle path for topographic interaction. At mid-northern latitudes (around 50°–55° N), the Sun's setting orients toward the northwest, enhancing the potential for alignments with north-south trending ridges or hills that can produce the dual occlusion effect. These conditions ensure the Sun's path skims close to the local horizon profile, maximizing the re-emergence visibility. Conceptually, the double sunset derives from basic astronomical principles of the Sun's apparent motion, driven by Earth's eastward at about 15° per hour relative to the . This projects the Sun westward across the sky along an inclined path determined by the observer's and the date's solar declination, with the horizon serving as the reference plane. Local introduces variable angles to this horizon, obstructing the of sight intermittently; the first "setting" occurs when the Sun's altitude drops below the angle subtended by the nearer obstruction, while the second follows clearance of that barrier but submersion below the true astronomical horizon. No complex computations are needed beyond standard solar position calculations, emphasizing how subtle undulations can transform a routine sunset into this striking without altering the Sun's actual .

Types of Double Sunsets

The primary type of double sunset is the landscape-induced variety, where the Sun appears to set twice due to topographic features such as hills or ridges that temporarily the solar disk before it fully descends below the horizon. This occurs at specific latitudes and during particular times of the year, most notably around , when the Sun's path aligns precisely with the local terrain to allow the upper limb to reemerge briefly after initial immersion. The phenomenon relies on the Earth's and the observer's vantage point, making it observable for limited periods—historically spanning millennia but projected to persist for only another few centuries in some cases due to gradual shifts in solar .

Historical Significance

Ancient Records

Archaeoastronomical evidence suggests that prehistoric societies may have observed double sunsets through intentional alignments in structures dating to the or . For instance, the double sunset at , has potential astronomical significance possibly dating back millennia, as nearby archaeological features indicate orientations toward solstice events.

Modern Documentation

The first detailed Western description of a double sunset dates to 1686, when naturalist documented the phenomenon observed from the churchyard of St. in , in his seminal work The Natural History of Staffordshire. Plot's account included a illustration and noted the sun's apparent reappearance after initial setting due to the local topography, marking an early scientific observation that highlighted its potential for measuring solstice timing and Earth's obliquity. In the , systematic studies bridged astronomy and , with Alexander Thom conducting extensive surveys of British megalithic sites from the 1930s to the 1970s, identifying alignments that produced double sunsets, such as the effect at Kintraw in . Thom's work, detailed in publications like Megalithic Sites in Britain (1967), emphasized precise geometric orientations toward solar events, suggesting intentional prehistoric design for calendrical purposes. Complementing this, Kevin Kilburn's 1999 analysis in Astronomy & Geophysics examined the double sunset's geometric mechanics and archaeological context, confirming Plot's observations while noting how modern obstructions like overhanging trees had obscured visibility from traditional viewpoints by the late . Recent documentation has leveraged digital tools for verification and preservation, with photography archives such as doublesunset.org—active since the —compiling images and videos that demonstrate ongoing visibility at sites like , often from alternative vantage points to bypass obstructions like tree growth. These efforts include computational modeling to predict and simulate the phenomenon's occurrence, aiding in public education and site management. However, coverage remains predominantly European-focused, with sparse modern reports from non-European locations such as , underscoring the need for broader global surveys to capture evolving visibility patterns.

Locations in Europe

Orasso, Italy

Orasso is a small village in the region of , part of the Cursolo-Orasso municipality in the Verbano-Cusio-Ossola province, situated near the Swiss border along and approximately 703 meters above sea level. With fewer than 100 residents, it lies about 10 miles from Cannobio, perched on a mountainside 2,296 feet above the valley floor, close to the prominent Mount Riga, which rises to 1,290 meters (4,232 feet). The double sunset phenomenon in Orasso occurs during the winter months, specifically from November 25 to January 17, spanning about 50 days, when the sun appears to set and rise twice each day due to the unique of Mount Riga. This effect arises as the sun sets behind the mountain's first peak, briefly disappears, reappears through a dip or pass between its two humps, and then sets again behind the second peak; a similar double occurrence happens at sunrise. For instance, on a typical day during this period, the first sunset might occur around 12:16 p.m., followed by the second sunrise at about 1:46 p.m., and the final sunset near 3:46 p.m. Optimal viewing of the double sunset is possible from various points within the village, such as the historic 7th-century churchyard of San Materno or nearby hiking trails in the surrounding lush mountains, where the alignment with Mount Riga provides clear sightlines without reported major obstructions. The event, lasting the duration of the sun's brief reappearance through the pass, offers a striking visual of the sun's path influenced by the local landscape's natural saddles and peaks. Locally, the phenomenon has minor significance as a draw for in this remote, historic village back to around 1500, attracting visitors interested in its unique natural display, though residents have long adapted to it, even noting its effects on local like roosters crowing twice. While there is speculation about prehistoric awareness of such alignments in the region, no confirmed evidence exists.

Monte Forato, Italy

Monte Forato is situated in the of , , near the town of Stazzema in the , close to Barga in the region. The mountain, reaching an elevation of approximately 1,230 meters, features a prominent natural arch that connects its two peaks, giving it the name "Forato," which means "pierced" in Italian. This resulted from processes acting on the ancient deposits of the , which date back to the era, with the arch itself likely developing over the past 10,000 years following post-glacial exposure. The double sunset phenomenon at Monte Forato, locally known as "Doppio Tramonto," occurs twice annually around late (typically January 30–31) and mid-November (typically November 11–12), when solar alignments allow the event to be observed from various vantage points in the surrounding valleys. As the sun sets behind the mountain's peaks, it briefly aligns with the arch—measuring 32 meters wide and 25 meters high—creating the of a second setting as the light passes through the opening, forming a glowing disk before the sun fully descends. This arch-mediated effect differs from other double sunsets by relying on the precise of the natural perforation rather than or terrain dips. Optimal viewing is possible from locations such as the valley floors near Gallicano, Barga, or Levigliani, where the alignment is clearest, with the event lasting approximately 5–10 minutes under favorable weather conditions. The phenomenon draws photographers, hikers, and astronomy enthusiasts, who capture the striking visuals of the illuminated arch against the twilight sky. Since 2009, local organizations like the have organized annual guided excursions and events to celebrate and observe the Doppio Tramonto, enhancing its cultural appeal in the region.

Güímar Pyramids, Tenerife, Spain

The Güímar Pyramids are located in the eastern part of , in the of , within the Ethnographic Park and of Pirámides de Güímar. This complex consists of six rectangular, step-like pyramids constructed from local lava stone without mortar, arranged in an east-west orientation that some researchers associate with pre-Hispanic astronomical practices. While historical records indicate the structures date to the and may have served as agricultural terraces, proponents argue for a prehistoric origin tied to the indigenous Guanche people. The double sunset phenomenon at the site occurs annually on June 21, , due to the precise alignment of the pyramids with the solar path. From an elevated vantage point, the sun appears to set first behind a distant mountain ridge, then briefly reemerges through a natural notch in the terrain before setting definitively behind an adjacent hill, creating the illusion of a dual sunset. This alignment leverages the east-west axis of the main pyramids, as documented by astronomical studies, and is visible only under clear conditions during this specific solstice event. Optimal viewing takes place from the platform of Pyramid 6, the largest structure in the complex, where the horizon's topography enhances the effect. The park hosts free public events on the solstice date, allowing visitors to observe the spectacle, which unfolds over the evening horizon toward the . Access is managed through timed tickets to accommodate crowds, emphasizing the site's role as an accessible astronomical landmark. Culturally, the double sunset is interpreted as evidence of Guanche solar worship, with the pyramids' orientation potentially serving as an intentional observatory for marking solstices in their agricultural and ritual calendars. Norwegian explorer Thor Heyerdahl, who investigated the site in the 1990s, promoted this view by establishing the ethnographic park and arguing that the structures reflected transoceanic influences and pre-Hispanic engineering, though mainstream archaeology attributes them primarily to 19th-century farmers adapting the landscape. Despite ongoing debates, the phenomenon underscores the site's enduring appeal as a bridge between indigenous heritage and modern astronomy.

Leek, Staffordshire, England

The double sunset at Leek occurs in the churchyard of St. Edward the Confessor, located in the Staffordshire Moorlands district, with the view directed toward Bosley Cloud, a hill approximately 10 km to the southwest. This phenomenon is visible around the summer solstice on June 21, when the Sun sets behind the summit of Bosley Cloud, becomes temporarily occulted by the hill's profile, and then reappears over a col (a low point or saddle) in the ridge before setting definitively into the valley beyond; the reappearance lasts for about 30 minutes, providing a striking visual effect due to the alignment of the viewing point and the hill's topography. The optimal viewing spot is near the church gate in the upper churchyard, though since the early , mature trees have partially obscured the horizon, making observation more challenging without elevation aids such as a ladder or nearby higher ground. The event was first documented by in his 1686 work The Natural History of Staffordshire, where he described it as a notable and noted its utility for approximating and estimating the obliquity of the ; the alignment may date to , potentially serving as a site during the .

Thorpe Cloud, Derbyshire, England

Thorpe Cloud is an isolated limestone reef knoll rising to 287 metres (942 feet) above , located near the village of Thorpe and approximately 3 kilometres north of Ashbourne in , . The hill lies on the border between and Staffordshire, overlooking the River Dove in the scenic valley, and is entirely within the Peak District National Park, designated in 1951 as 's first national park. Its distinctive conical shape makes it a prominent landmark for visitors entering the area from the south. The double sunset at manifests during around June 21, when the sun, viewed from the summit, appears to set twice in the same evening due to the hill's . As the sun descends behind the northern shoulder of the hill, it briefly reemerges over a in the landscape before setting fully, creating an enhanced visual effect amid the surrounding dales and ridges. This phenomenon, first documented in detail by local researcher in the late , aligns with the solstice's extended daylight and the relative to the local horizon. Accessing the viewpoint requires a moderate hike to the summit, typically starting from the car park and covering about 2.9 kilometres (1.8 miles) round trip with 141 metres (462 feet) of elevation gain, taking 1 to 1.5 hours for most walkers. The event demands clear skies for optimal visibility and unfolds over roughly 15 to 20 minutes near sunset, drawing crowds of hikers, photographers, and astronomy enthusiasts annually. Alternative perspectives can be gained from the flank of nearby Chrome Hill, though the summit offers the most immersive experience. While the hill itself lacks direct archaeological remains, its prominent position in the prehistoric-rich suggests possible ancient observational use, akin to other solstice markers in the region.

Kintraw, Scotland

Kintraw is an ancient megalithic complex overlooking Loch Craignish in , , consisting of a prominent standing stone flanked by two burial cairns dating to approximately 2500 BC. The site, situated on a hillside overlooking Loch Craignish, features a man-made observation platform excavated behind the standing stone, confirming its use as a prehistoric vantage point. The double sunset phenomenon at Kintraw occurs at midwinter sunset around , when the Sun aligns with the distant peaks, approximately 29 miles away, dipping behind one peak before reappearing and fully setting in a notch between them. This alignment, with a solar declination of -23° 38', suggests the site functioned as a potential solar observatory for tracking the winter solstice. The event is best viewed from the standing stone as a foresight, though visibility remains debated due to encroaching overgrowth and atmospheric haze obscuring the distant peaks. In the , engineer and archaeoastronomer Alexander Thom surveyed Kintraw, interpreting it as part of a broader network of megalithic lunar and solar observatories, a finding supported by subsequent excavations that validated the alignment's precision. These modern surveys, as documented in broader archaeoastronomical studies, highlight Kintraw's role in prehistoric timekeeping. The site's cultural significance extends to potential ties with Celtic traditions, including solar calendars linked to like , reflecting advanced astronomical knowledge possibly maintained by a specialized priesthood.

Locations Elsewhere

Big Island, Hawaii, USA

A reflection-based resembling a double sunset can be observed along Saddle Road (Hawaiʻi Route 200), which crosses the saddle between and volcanoes at elevations reaching approximately 2,000 meters. This volcanic landscape provides an elevated vantage point overlooking the to the west. From this viewpoint, the setting sun's reflection on the surface creates the appearance of a second sun, often accompanied by dramatic piercing through scattered clouds. This differs from topographic double sunsets caused by solstice alignments with landforms. The phenomenon was documented in in 2009 during a routine commute along this route. In the broader context of the area, sunset viewing ties into tourism centered on the nearby Visitor Information Station, where guided stargazing tours frequently incorporate elevated sunset observations as a prelude to nighttime astronomy programs.

Other Reported Sites

In , a topographic double sunset has been reported from Robson Valley in , , where the sun's descent behind a mountain and reappearance on the other side creates two settings in one evening, occurring once a year due to local geography. This phenomenon was captured in a video in 2008. Additional reports include optical illusions resembling double sunsets, such as an ice crystal reflection event in Zimbabwe on December 11, 2015, and an atmospheric illusion in Roanoke, Virginia, USA, in 2013. These emphasize the need to distinguish true topographic events from optical ones. Research gaps persist; further studies are required to catalog additional topographic locations, assess climate and urbanization impacts on visibility, and develop comprehensive lists using modern surveying tools.

References

  1. https://academic.oup.com/astrogeo/article-abstract/40/1/1.20/214174
  2. https://www.researchgate.net/publication/241516970_Dr_Plot_and_the_amazing_double_sunset
  3. https://academic.oup.com/astrogeo/article-pdf/40/1/1.20/567166/40-1-1.20.pdf
  4. https://doublesunset.org/
  5. https://www.nativeplanet.com/travel-guide/orasso-italy-a-city-with-two-sunsets-two-sunrise-007623.html
  6. https://www.latimes.com/archives/la-xpm-1986-03-09-tr-18243-story.html
  7. https://mapcarta.com/N260547800
  8. https://gcatholic.org/churches/italia/128987
  9. https://www.visittuscany.com/en/attractions/monte-forato/
  10. https://www.mdpi.com/2073-445X/11/8/1282
  11. https://www.barganews.com/2021/11/finally-a-double-sunset-to-remember/
  12. https://www.barganews.com/2025/11/monte-forato-and-the-waiting-game-for-the-double-sunset/
  13. http://www.garfagnanaguide.it/
  14. https://www.stefanopucci.it/tour/doppio-tramonto-nel-monte-forato-con-merenda-pranzo-vegetariano-12-ottobre/
  15. https://www.piramidesdeguimar.es/en/discover/pyramids-and-routes/
  16. https://www.piramidesdeguimar.es/en/discover/the-double-sunset/
  17. https://www.academia.edu/4176424/Some_remarks_about_the_astronomical_orientation_of_the_pyramids_of_Chacona_G%C3%BC%C3%ADmar_Tenerife_
  18. http://www.blather.net/theblather/2006/08/the_pyramids_of_gmar_tenerife/
  19. https://gatekeeper.org.uk/2020/11/the-full-moon-in-gemini-leek/
  20. https://www.pressreader.com/uk/leek-post-times/20190710/281694026345094
  21. https://assets.simpleviewinc.com/simpleview/image/upload/v1/clients/staffordshire/Tree_Trail_leaflet_for_web_482de23a-1c2d-4e20-bcd3-d8f0c1b73cb2.pdf
  22. https://kids.kiddle.co/The_Cloud_%28Peak_District%29
  23. https://www.peakdistrict.gov.uk/__data/assets/word_doc/0021/73551/Mountain-formation-teachers-notes.doc
  24. https://www.peakdistrict.gov.uk/visiting/miles-without-stiles/dovedale
  25. https://www.theguardian.com/travel/2020/sep/12/10-best-uk-peaks-hill-walks-with-stunning-360-views
  26. https://www.newsflare.com/video/363414/the-mysterious-double-sunset-at-thorpe-cloud-peak-district-derbyshire-which-happens-during-the-summer-solstice-week-4k-time-lapse
  27. https://www.alltrails.com/trail/england/derbyshire/thorpe-cloud
  28. https://www.peakdistrict.gov.uk/__data/assets/pdf_file/0029/77456/ACID-2018.pdf
  29. https://royalsocietypublishing.org/doi/10.1098/rsta.1974.0027
  30. https://sunsetmoment.wordpress.com/2009/09/29/double-sunsets-on-the-big-island-of-hawaii-and-around-the-world/
  31. https://www.youtube.com/watch?v=yUMJg-a-eZ8
  32. https://earthsky.org/todays-image/report-from-zimbabwe-double-sunset/
  33. https://www.youtube.com/watch?v=gUfwvYmrXI4
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