240:
120:
711:
771:, the first such occultation detected. The multi-faceted campaign involved cooperation from the Argentinian government (including local governments – a major highway was closed for two hours, and street lights were turned off, in order to preclude light pollution), three spacecraft, 24 portable ground-based telescopes, and NASA's SOFIA airborne observatory in "the most challenging stellar occultation in the history of astronomy," in an effort spanning six months.
101:
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2035:
243:
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224:
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along a track across the southern United States, northern Mexico, and north parts of the
Caribbean. Observations from 130 different locations defined the shape of about two-thirds of the asteroid, and detected the secondary companion of the bright binary star; these observations, taken together with
442:
passes in front of a star, temporarily blocking its light as seen from Earth. These occultations are useful for measuring the size and position of body much more precisely than can be done by other means. A cross-sectional profile of the shape of a body can even be determined if a number of observers
232:
787:
the Moon, at any given time, occults an indeterminate number of stars and galaxies. However the Moon occulting (obscuring) two bright objects (e.g. two planets or a bright star and a planet) simultaneously is extremely rare and can be seen only from a small part of the world: the last such event was
816:
around distant stars. The satellite consists of a large, very lightweight sheet, and a set of maneuvering thrusters and navigation systems. It would maneuver to a position along the line of sight between the telescope and a nearby star. The satellite would thereby block the radiation from the star,
315:
Several times during the year the Moon can be seen occulting a planet. Since planets, unlike stars, have significant angular sizes, lunar occultations of planets will create a narrow zone on Earth from which a partial occultation of the planet will occur. An observer located within that narrow zone
395:
In rare cases, one planet can pass in front of another. If the nearer planet appears larger than the more distant one, the event is called a mutual planetary occultation. The last occultation or transit occurred on 3 January 1818 and the next will occur on 22 November 2065, in both cases involving
295:
of those stars. Early radio astronomers found occultations of radio sources by the Moon valuable for determining their exact positions, because the long wavelength of radio waves limited the resolution available through direct observation. This was crucial for the unambiguous identification of the
176:
or 0.28 ÎĽrad, a star that is occulted by the Moon will disappear or reappear in 0.1 seconds or less on the Moon's edge, or limb. Events that take place on the Moon's dark limb are of particular interest to observers, because the lack of glare allows easier observation and timing.
272:
Within a few kilometres of the edge of an occultation's predicted path, referred to as its northern or southern limit, an observer may see the star intermittently disappearing and reappearing as the irregular limb of the Moon moves past the star, creating what is known as a
1629:– Astronomische Tabellen für den Mond von 2007 bis 2016, Mondphasen, Apsiden, Knotendurchgänge, Maximale und minimale Deklinationswerte und Sternbedeckungen sowie ausführliche Ephemeriden für jeden Tag des Jahres, inkl. Mondauf-und Untergänge und physische Daten.
244:
140:
282:
The accurate timing of lunar occultations is performed regularly by (primarily amateur) astronomers. Lunar occultations timed to an accuracy of a few tenths of a second have various scientific uses, particularly in refining our knowledge of
414:. This is one of the rarest events known, with the next occurrence on February 10, 7541. This event is visible worldwide since the duo would be positioned almost in opposition to the sun, in the border line between the constellations of
137:
1475:"New Mysteries Surround New Horizons' Next Flyby Target: NASA's New Horizons spacecraft doesn't zoom past its next science target until New Year's Day 2019, but the Kuiper Belt object, known as 2014 MU69, is already revealing surprises"
70:, but can also refer to any situation in which an object in the foreground blocks from view (occults) an object in the background. In this general sense, occultation applies to the visual scene observed from low-flying aircraft (or
714:
756:
placed an upper limit on Eris's diameter of 2320 km, making it almost the same size as Pluto. Due to their slower movement through the night sky, occultations by TNOs are far less common than by asteroids in the
139:
422:. In some areas this occultation cannot be seen, but when viewed through even small telescopes, both gas giants appear to be in the same part of view through the eyepiece. The last one occurred in 6857 B.C.E.
702:, with the center of the shadow path following a line roughly connecting New York City, White Plains, Newburgh, Oneonta, Rome, and Pulaski before crossing into Canada near Belleville and
726:
during an occultation of a faint star in April 2011. Note: the actual shape of the shadow on Earth will not be exactly round as shown here. This video is to illustrate the phenomenon.
47:
824:
engine in combination with using the sheet as a light sail. Positioned at a distance of 100,000 km from the telescope, it would block more than 99.998% of the starlight.
138:
621:
those of a separate occultation by Pallas in 1979, provided a complete figure for the asteroid eight years before any asteroid was visited by a spacecraft (the much smaller
316:
could observe the planet's disk partly blocked by the slowly moving Moon. The same mechanism can be seen with the Sun, where observers on Earth will view it as a
1474:
820:
The proposed satellite would have a dimension of 70 by 70 metres (230 ft Ă— 230 ft), a mass of about 600 kg, and maneuver by means of an
1768:
1460:
1215:
941:
690:
in the early morning of 20 March 2014. This was the brightest occultation of an asteroid ever predicted to occur over a populated area. As the
1389:
Ortiz, J.L.; (91 more authors) (12 October 2017). "The size, shape, density and ring of the dwarf planet Haumea from a stellar occultation".
842:. The second would place the satellite in a highly elliptical orbit about the Earth, and work in conjunction with a ground telescope. At the
1267:
208:
are in this epoch only possible by the Moon, because the planets pass
Aldebaran to the north. Neither planetary nor lunar occultations of
66:
is an event that occurs when one object is hidden from the observer by another object that passes between them. The term is often used in
1031:
Hazard, C.; Mackey, M. B.; Shimmins, A. J. (1963). "Investigation of the Radio Source 3C273 by the method of Lunar
Occultations".
1761:
1136:
1738:
1649:
1287:
1688:
279:. From an observational and scientific standpoint, these "grazes" are the most dynamic and interesting of lunar occultations.
1109:
1663:
916:
906:
846:
of the orbit, the satellite would remain relatively stationary with respect to the ground, allowing longer exposure times.
921:
355:
1314:
287:. Photoelectric analysis of lunar occultations have also discovered some stars to be very close visual or spectroscopic
1754:
479:
291:. Some angular diameters of stars have been measured by timing of lunar occultations, which is useful for determining
1885:
1614:
1482:
165:
1288:"The International Occultation Timing Association 24th Annual Meeting at Mt. Cuba Observatory, Greenville, Delaware"
2103:
1340:
443:
at different, nearby, locations observe the occultation. Occultations have been used to calculate the diameter of
212:
are currently possible, however several thousand years ago lunar occultations were possible. Some notably close
192:
between –6.6 and +6.6 degrees may be occulted by it. Three first magnitude stars appear well within that band –
1817:
1732:
257:
227:
Jupiter (the bright object in the upper right) a few minutes before being occulted by the Moon on 16 June 2005.
1976:
2113:
2108:
17:
1802:
381:
128:
2025:
1966:
1956:
1575:
911:
71:
1961:
1504:
1367:
891:
389:
275:
861:
disc. A comparable proposal was also made for a satellite to occult bright X-ray sources, called an
169:
1797:
1981:
1865:
1777:
1715:
Combining asteroid models derived by lightcurve inversion with asteroidal occultation silhouettes
1264:
881:
723:
695:
675:
was observed by over 38 observatories in one occultation on 3 March 1998, which resulted in many
435:
1902:
444:
419:
253:
74:) when foreground objects obscure distant objects dynamically, as the scene changes over time.
1679:
1807:
1454:
1209:
1075:
901:
415:
301:
292:
1875:
1541:
1408:
1187:
1178:
1040:
981:
875:
613:
1251:
780:
The Moon or another celestial body can occult multiple celestial bodies at the same time.
388:
occulted stars in 1988, 2002, and 2006, allowing its tenuous atmosphere to be studied via
223:
8:
2087:
1720:
1708:
1150:
1010:
896:
737:
699:
486:
of small bodies and detecting a second, superimposed brightness variation, from which an
346:
79:
39:
1545:
1412:
1254:. euraster.net (a website for Asteroidal Occultation Observers in Europe). 21 March 1998
1191:
1044:
985:
2075:
2063:
1673:
1557:
1531:
1442:
1398:
1056:
946:
936:
741:
703:
691:
626:
449:
360:
Stars may also be occulted by planets. Occultations of bright stars are rare. In 1959,
1497:
1860:
1812:
1610:
1522:
Copi, C. J.; Starkman, G. D. (2000). "The Big
Occulting Steerable Satellite (BOSS)".
1446:
1434:
1291:
926:
827:
There are two possible configurations of this satellite. The first would work with a
676:
511:
475:
368:, and the next occultation of a bright star (also Regulus by Venus) will be in 2044.
189:
185:
1685:
1561:
77:
If the closer body does not entirely conceal the farther one, the event is called a
2039:
1986:
1549:
1424:
1416:
1195:
1073:
1060:
1048:
951:
839:
789:
784:
284:
1113:
490:
for the satellite (secondary), and a secondary-to-primary diameter-ratio (for the
160:
during the course of its orbital motion around the Earth. Since the Moon, with an
1907:
1850:
1835:
1692:
1667:
1271:
886:
828:
768:
491:
373:
341:
305:
213:
1660:
376:
were first discovered when that planet occulted a star in 1977. On 3 July 1989,
119:
100:
27:
Occlusion of an object by another object that passes between it and the observer
1922:
1890:
1855:
1341:"Volunteer observers invited to time the March 20, 2014 Occultation of Regulus"
657:
523:
487:
320:. Therefore, a total solar eclipse is essentially the Moon occulting the Sun.
2097:
1946:
1845:
1840:
1318:
931:
749:
694:
passed in front of the star its 100 km (60 mi) shadow swept across
671:
According to the 1998 European
Asteroidal Occultation Results from Euraster,
653:
317:
209:
161:
113:
95:
1746:
1174:"The size and shape of (2) Pallas from the 1983 occultation of 1 Vulpecuale"
2051:
2012:
1785:
1438:
661:
645:
617:
461:
439:
337:
668:) occulted notable magnitude stars, viewed from given places on the Earth.
204:– meaning they may be occulted by the Moon or by planets. Occultations of
2002:
1951:
1912:
1536:
858:
764:
was observed in a stellar transit on 21 January 2017, identifying a ring.
736:
Preliminary results of a 6 November 2010 occultation by the dwarf planet
687:
672:
649:
637:
536:
483:
457:
333:
328:
288:
55:
1420:
464:. Software for coordinating observations is available for download at
261:
1971:
1917:
1429:
1344:
641:
622:
575:
562:
1702:
1639:
1052:
2007:
1897:
1230:
854:
850:
821:
809:
805:
788:
on 23 April 1998 when it occulted Venus and
Jupiter for observers on
665:
549:
231:
205:
173:
67:
51:
1827:
1553:
1403:
1200:
1173:
609:
588:
217:
181:
50:
In this July 1997 still frame captured from video, the bright star
1714:
683:
407:
401:
365:
309:
201:
193:
88:
1076:"Bright Planet & Asteroid Occultations by the Moon for 2021"
722:
This animation shows the path of the shadow of the dwarf planet
465:
235:
Occultation of the planet Saturn by the Moon on 3 November 2001.
1686:
Scientists Use Novel
Technique To Watch Occultations By Planets
1654:
1645:
1626:
843:
813:
761:
411:
377:
369:
297:
265:
168:/s or 2.7 ÎĽrad/s, has a very thin atmosphere and stars have an
124:
83:. Both transit and occultation may be referred to generally as
32:
1317:. UniversitĂ degli Studi di Napoli Federico II. Archived from
1290:. International Occultation Timing Association. Archived from
767:
On 3 June 2017, a star was occulted by the Kuiper belt object
46:
1938:
1095:
Albers, Steven, "Mutual
Occultations of Planets: 1557–2230",
832:
753:
633:
397:
385:
361:
197:
87:; and if a shadow is cast onto the observer, it is called an
1579:
1011:"Occultations of bright stars by planets between 0 and 4000"
1680:
Discovery Hints at a
Quadrillion Space Rocks Beyond Neptune
157:
153:
2046:
1721:
Occultations of bright stars by planets between 0 and 4000
180:
The Moon's orbit is inclined slightly with respect to the
1074:
148:
The term occultation is most frequently used to describe
1674:
Planetary Conjunctions and Mutual Planetary Occultations
1171:
972:
Meeus, Jean (1971). "La périodicité des occultations".
1388:
1110:"Chapter 2: Predictable Non-periodic Events – Part II"
2023:
1467:
1024:
1505:"NASA's New Horizons Team Strikes Gold in Argentina"
1137:"Jupiter and Saturn Embrace in Solstice Conjunction"
1030:
1646:
International Occultation Timing Association (IOTA)
878:(also for occultations of planets by other planets)
698:and Suffolk counties, all of New York City and the
54:has just reappeared on the dark limb of the waning
1661:Mutual occultations (and conjunctions) of planets
425:
2095:
1607:Astronomical Tables of the Sun, Moon and Planets
1576:"The X-ray Occulting Steerable Satellite (XOSS)"
849:An updated version of this design is called the
817:permitting the orbiting planets to be observed.
94:The symbol for an occultation, and especially a
1153:. MIT Planetary Astronomy Lab. 20 December 2007
942:TAOS: The Taiwanese-American Occultation Survey
482:have been discovered analyzing the photometric
152:, those relatively frequent occasions when the
1252:"1998 European Asteroidal Occultation Results"
992:Meeus, Jean (1997). "Series of occultations".
1776:
1762:
1521:
1172:Dunham, David W.; (45 more authors) (1990).
996:. Richmond: Willmann-Bell. pp. 113–124.
1735:, (software), Durch Occultation Association
1459:: CS1 maint: numeric names: authors list (
1281:
1279:
1214:: CS1 maint: numeric names: authors list (
308:'s discovery of the cosmological nature of
300:with the optical quasar and its jet, and a
107:
1769:
1755:
1609:. Richmond, Virginia: Willmann-Bell, Inc.
1312:
795:
380:passed in front of the 5th magnitude star
1535:
1515:
1428:
1402:
1382:
1199:
1005:
1003:
323:
1741:, (software), www.lunar-occultations.com
1276:
1244:
1134:
802:Big Occulting Steerable Satellite (BOSS)
709:
327:
238:
230:
222:
134:
118:
45:
1640:Occultation Studies at Williams College
1222:
1165:
706:. Bad weather obscured the occultation.
472:mutual occultation and eclipsing events
14:
2096:
1359:
1285:
1000:
808:that would work in conjunction with a
775:
1750:
1604:
1509:New Horizons: NASA's Mission to Pluto
1365:
1306:
991:
971:
1655:Moon, planets, asteroid occultations
917:Occultations, transits, and eclipses
907:List of Solar System objects by size
474:can occur between a primary and its
258:Total Solar Eclipse on April 8, 2024
1705:, www.asteroidoccultation.com, 2018
1228:
922:Planetary transits and occultations
863:X-ray Occulting Steerable Satellite
356:Planetary transits and occultations
24:
1598:
1143:
831:, most likely positioned near the
730:
503:Notable occultations of asteroids
164:with respect to the stars of 0.55
144:Occultation of a star by the Moon.
25:
2125:
1633:
632:On 12 March 2009 nine asteroids (
38:For the Shia Islamic belief, see
2081:
2069:
2057:
2045:
2033:
783:Because of its relatively large
99:
1568:
1333:
220:, can be occulted by the Moon.
1642:, www.stellaroccultations.info
1231:"Asteroid Occultation Updates"
1128:
1102:
1089:
1067:
994:Mathematical Astronomy Morsels
965:
612:occulted the naked-eye bright
501:
426:Occultations by smaller bodies
13:
1:
1481:. 5 July 2017. Archived from
1135:Bob King (20 December 2020).
958:
686:was occulted by the asteroid
466:http://www.occultwatcher.net/
1703:Asteroid Occultation Updates
1682:, www.space.com, August 2006
602:
58:in this predawn occultation.
7:
1733:Lunar Occultation Workbench
1725:Il cielo ed i suoi femomeni
868:
497:
188:) meaning any star with an
10:
2130:
1368:"The shadowy hand of Eris"
990:– English translation in:
912:Lunar occultation of Venus
353:
111:
72:computer-generated imagery
29:
1995:
1937:
1874:
1826:
1793:
1784:
1778:Small Solar System bodies
1524:The Astrophysical Journal
1313:Vitagliano, Aldo (2010).
892:Grazing lunar occultation
390:atmospheric limb sounding
332:A grazing occultation of
276:grazing lunar occultation
494:) can often be derived.
431:
112:Not to be confused with
108:Occultations by the Moon
31:Not to be confused with
2104:Observational astronomy
1691:31 October 2018 at the
796:Artificial occultations
445:trans-Neptunian objects
436:small Solar System body
1903:Trans-Neptunian object
1711:, www.occultations.net
1709:Occultations by Phoebe
1657:, www.occultations.net
1578:. CASE. Archived from
1370:. Mike Brown's Planets
1286:Dunham, David (2006).
1151:"Stellar Occultations"
1139:. Sky & Telescope.
727:
351:
324:Occultation by planets
293:effective temperatures
269:
236:
228:
145:
132:
59:
902:List of minor planets
721:
480:large number of moons
396:the same two planets—
331:
251:
234:
226:
156:passes in front of a
143:
122:
49:
1876:Distant minor planet
1670:, TAU astronomy Club
1666:11 July 2011 at the
1605:Meeus, Jean (1995).
1366:Brown, Mike (2010).
1321:on 18 September 2015
1270:23 July 2011 at the
1179:Astronomical Journal
876:Astronomical transit
614:spectroscopic binary
2114:Stellar occultation
2109:Astronomical events
1546:2000ApJ...532..581C
1421:10.1038/nature24051
1413:2017Natur.550..219O
1192:1990AJ.....99.1636D
1045:1963Natur.197.1037H
986:1972LAstr..86..141M
897:Grazing occultation
776:Double occultations
700:Hudson River Valley
658:2448 Sholokhov
504:
131:on 8 November 2022.
40:Occultation (Islam)
1650:lunar occultations
947:Transit of Mercury
937:Syzygy (astronomy)
728:
704:North Bay, Ontario
692:main belt asteroid
654:980 Anacostia
502:
352:
270:
237:
229:
150:lunar occultations
146:
133:
60:
2021:
2020:
1933:
1932:
1818:Meanings of names
1697:The Starry Mirror
1397:(7675): 219–223.
1347:on 27 August 2017
1116:on 13 August 2012
1097:Sky and Telescope
1053:10.1038/1971037a0
927:Radio occultation
760:The dwarf planet
719:
679:being determined.
662:1746 Brouwer
646:201 Penelope
629:in October 1991).
600:
599:
434:are those when a
430:A further set of
304:prerequisite for
249:
190:ecliptic latitude
186:orbit of the Moon
172:of at most 0.057
141:
16:(Redirected from
2121:
2086:
2085:
2084:
2074:
2073:
2072:
2062:
2061:
2060:
2050:
2049:
2038:
2037:
2036:
2029:
1791:
1790:
1771:
1764:
1757:
1748:
1747:
1729:
1625:
1620:
1592:
1591:
1589:
1587:
1572:
1566:
1565:
1539:
1537:astro-ph/9904413
1519:
1513:
1512:
1501:
1495:
1494:
1492:
1490:
1471:
1465:
1464:
1458:
1450:
1432:
1406:
1386:
1380:
1379:
1377:
1375:
1363:
1357:
1356:
1354:
1352:
1343:. Archived from
1337:
1331:
1330:
1328:
1326:
1315:"The Solex Page"
1310:
1304:
1303:
1301:
1299:
1283:
1274:
1263:
1261:
1259:
1248:
1242:
1241:
1239:
1237:
1229:Preston, Steve.
1226:
1220:
1219:
1213:
1205:
1203:
1169:
1163:
1162:
1160:
1158:
1147:
1141:
1140:
1132:
1126:
1125:
1123:
1121:
1112:. Archived from
1106:
1100:
1093:
1087:
1086:
1084:
1082:
1071:
1065:
1064:
1028:
1022:
1021:
1019:
1017:
1007:
998:
997:
989:
969:
952:Transit of Venus
840:Lagrangian point
790:Ascension Island
785:angular diameter
720:
688:163 Erigone
673:39 Laetitia
650:70 Panopaea
638:247 Eukrate
608:On 29 May 1983,
505:
455:
285:lunar topography
250:
214:deep-sky objects
170:angular diameter
142:
103:
43:
36:
21:
2129:
2128:
2124:
2123:
2122:
2120:
2119:
2118:
2094:
2093:
2092:
2082:
2080:
2070:
2068:
2058:
2056:
2044:
2034:
2032:
2024:
2022:
2017:
1991:
1929:
1870:
1822:
1780:
1775:
1727:
1693:Wayback Machine
1676:stevealbers.net
1668:Wayback Machine
1636:
1623:
1617:
1601:
1599:Further reading
1596:
1595:
1585:
1583:
1582:on 19 July 2011
1574:
1573:
1569:
1520:
1516:
1511:. 19 July 2017.
1503:
1502:
1498:
1488:
1486:
1485:on 21 July 2017
1473:
1472:
1468:
1452:
1451:
1387:
1383:
1373:
1371:
1364:
1360:
1350:
1348:
1339:
1338:
1334:
1324:
1322:
1311:
1307:
1297:
1295:
1294:on 18 July 2011
1284:
1277:
1272:Wayback Machine
1257:
1255:
1250:
1249:
1245:
1235:
1233:
1227:
1223:
1207:
1206:
1170:
1166:
1156:
1154:
1149:
1148:
1144:
1133:
1129:
1119:
1117:
1108:
1107:
1103:
1094:
1090:
1080:
1078:
1072:
1068:
1029:
1025:
1015:
1013:
1009:
1008:
1001:
970:
966:
961:
956:
887:GPS occultation
871:
853:, which uses a
838:
829:space telescope
804:was a proposed
798:
778:
769:486958 Arrokoth
733:
731:Distant objects
710:
642:1585 Union
605:
517:
500:
453:
448:
428:
410:rarely occults
358:
347:Cassini–Huygens
342:moons of Saturn
326:
306:Maarten Schmidt
239:
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123:Occultation of
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1977:Near-parabolic
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1923:Scattered disc
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1891:Neptune trojan
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1866:Spectral types
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1856:Jupiter trojan
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1634:External links
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1627:Marco Peuschel
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1554:10.1086/308525
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354:Main article:
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470:In addition,
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382:28 Sagittarii
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318:solar eclipse
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256:Video of the
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162:angular speed
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129:lunar eclipse
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56:crescent moon
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19:
2088:Solar System
2013:Space debris
1744:
1728:(in Italian)
1724:
1696:
1606:
1584:. Retrieved
1580:the original
1570:
1527:
1523:
1517:
1508:
1499:
1487:. Retrieved
1483:the original
1478:
1469:
1455:cite journal
1394:
1390:
1384:
1372:. Retrieved
1361:
1349:. Retrieved
1345:the original
1335:
1323:. Retrieved
1319:the original
1308:
1296:. Retrieved
1292:the original
1256:. Retrieved
1246:
1234:. Retrieved
1224:
1210:cite journal
1183:
1177:
1167:
1155:. Retrieved
1145:
1130:
1118:. Retrieved
1114:the original
1104:
1099:, March 1979
1096:
1091:
1079:. Retrieved
1069:
1036:
1032:
1026:
1014:. Retrieved
993:
977:
973:
967:
862:
848:
826:
819:
801:
799:
782:
779:
618:1 Vulpeculae
484:light curves
471:
469:
440:dwarf planet
432:occultations
429:
406:
394:
359:
345:
344:, imaged by
314:
281:
274:
271:
179:
149:
147:
93:
84:
78:
76:
63:
61:
18:Occultations
2076:Outer space
2064:Spaceflight
2003:Cosmic dust
1967:Long-period
1957:Halley-type
1913:Kuiper belt
1798:Designation
1624:(in German)
1430:10045/70230
1325:13 February
1298:13 February
1236:25 February
1186:(5): 1636.
1081:10 November
980:: 240–252.
882:Conjunction
859:coronagraph
537:39 Laetitia
302:fundamental
252:Ten Minute
127:during the
64:occultation
2098:Categories
2008:Meteoroids
1987:Sungrazing
1962:Hyperbolic
1918:Oort cloud
1861:Near-Earth
1586:9 February
1404:2006.03113
1374:7 November
1258:1 December
1157:26 October
959:References
812:to detect
757:main-belt.
634:85 Io
576:444 Gyptis
563:375 Ursula
254:Time Lapse
174:arcseconds
2040:Astronomy
1898:Damocloid
1447:205260767
1351:3 October
865:or XOSS.
855:sunflower
851:Starshade
822:ion drive
810:telescope
806:satellite
742:magnitude
682:The star
603:Asteroids
550:94 Aurora
476:satellite
364:occulted
206:Aldebaran
85:occlusion
68:astronomy
52:Aldebaran
1982:Periodic
1908:Detached
1828:Asteroid
1689:Archived
1664:Archived
1562:18790887
1439:29022593
1268:Archived
1265:(Chords)
1120:9 August
869:See also
857:-shaped
724:Makemake
610:2 Pallas
596:278Ă—142
589:48 Doris
583:179Ă—150
557:225Ă—173
544:219Ă—142
531:350Ă—304
516:Measured
498:Examples
447:such as
289:binaries
262:Mazatlán
218:Pleiades
182:ecliptic
2026:Portals
1947:Extinct
1886:Centaur
1648:, with
1542:Bibcode
1489:20 July
1409:Bibcode
1188:Bibcode
1061:4270661
1041:Bibcode
1016:16 June
982:Bibcode
814:planets
748:in the
684:Regulus
627:Galileo
570:216±10
450:2002 TX
408:Jupiter
402:Jupiter
366:Regulus
310:quasars
202:Antares
194:Regulus
89:eclipse
80:transit
1939:Comets
1851:Family
1836:Active
1803:Groups
1739:Occult
1699:, 2007
1613:
1560:
1445:
1437:
1391:Nature
1059:
1033:Nature
844:apogee
762:Haumea
696:Nassau
677:chords
664:, and
623:Gaspra
512:Chords
462:Varuna
420:Taurus
412:Saturn
378:Saturn
370:Uranus
340:, two
298:3C 273
266:Mexico
210:Pollux
200:, and
166:arcsec
125:Uranus
33:Occult
2052:Stars
1996:Other
1952:Great
1558:S2CID
1532:arXiv
1443:S2CID
1399:arXiv
1057:S2CID
833:Earth
754:Cetus
740:of a
616:star
458:Ixion
416:Orion
398:Venus
386:Pluto
374:rings
362:Venus
338:Dione
260:, in
198:Spica
184:(see
98:, is
1972:Lost
1813:Moon
1808:List
1611:ISBN
1588:2007
1491:2017
1479:NASA
1461:link
1435:PMID
1376:2010
1353:2014
1327:2011
1300:2011
1260:2008
1238:2009
1216:link
1159:2009
1122:2012
1083:2021
1018:2005
835:'s L
800:The
746:star
738:Eris
508:Name
478:. A
460:and
418:and
400:and
334:Rhea
158:star
154:Moon
1550:doi
1528:532
1425:hdl
1417:doi
1395:550
1196:doi
1049:doi
1037:197
752:of
744:17
625:by
541:~16
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