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877 Walküre

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Main-belt asteroid

877 Walküre
Modelled shape of Walküre from its lightcurve
Discovery
Discovered byG. Neujmin
Discovery siteSimeiz Obs.
Discovery date13 September 1915
Designations
MPC designation(877) Walküre
Named afterValkyrie (mythology) and Die Walküre (opera)
Alternative designationsA915 RV · 1909 GC
A909 GC · 1915 Σ7
1915 S7
Minor planet category
Orbital characteristics
Epoch 31 May 2020 (JD 2459000.5)
Uncertainty parameter 0
Observation arc98.94 yr (36,137 d)
Aphelion2.8854 AU
Perihelion2.0877 AU
Semi-major axis2.4866 AU
Eccentricity0.1604
Orbital period (sidereal)3.92 yr (1,432 d)
Mean anomaly222.78°
Mean motion0° 15 5.04 / day
Inclination4.2555°
Longitude of ascending node116.38°
Argument of perihelion275.82°
Physical characteristics
Mean diameter
  • 34.79±8.41 km
  • 38.41±1.4 km
  • 39.93±0.51 km
Synodic rotation period17.424±0.004 h
Pole ecliptic latitude
  • (68.0°, 58.0°) (λ11)
  • (253.0°, 61.0°) (λ22)
Geometric albedo
  • 0.05±0.03
  • 0.058±0.002
  • 0.0623±0.005
Spectral type
Absolute magnitude (H)10.9

877 Walküre (prov. designation: A915 RV or 1915 Σ7) is a dark background asteroid from the inner regions of the asteroid belt, approximately 38 kilometers (24 miles) in diameter. It was discovered on 13 September 1915, by Russian astronomer Grigory Neujmin at the Simeiz Observatory on the Crimean peninsula. The carbonaceous F/C-type asteroid has a rotation period of 17.4 hours and is likely elongated in shape. It was named after the female spirit Valkyrie from Norse mythology, best known from Wagner's opera Die Walküre.

Orbit and classification

Located in or near the orbital region of the Nysa family, Walküre is a non-family asteroid of the main belt's background population when applying the hierarchical clustering method to its proper orbital elements. It orbits the Sun in the inner asteroid belt at a distance of 2.1–2.9 AU once every 3 years and 11 months (1,432 days; semi-major axis of 2.49 AU). Its orbit has an eccentricity of 0.16 and an inclination of 4° with respect to the ecliptic. The asteroid was first observed as A909 GC (1909 GC) at Heidelberg Observatory on 9 April 1909, where the body's observation arc begins on 25 February 1921, more than 5 years after its official discovery observation at Simeiz on 13 September 1915.

Naming

This minor planet was named after the Valkyrie (German: Walküre) a female spirit from Norse mythology. The shield-bearing valkyries decide the fate of warriors in battle, and conduct some of them to Valhalla, the afterlife hall where the fallen heroes are received. Die Walküre (The Valkyrie) is also part of the opera cycle Der Ring des Nibelungen by Richard Wagner (1813–1883), the others being The Rhinegold, Siegfried and the Twilight of the Gods. The asteroid was named by astronomer Sergey Belyavsky and the naming was published in the journal Astronomische Nachrichten in 1923 (AN 219, 401). Asteroids 894 Erda and 890 Waltraut are also named after characters in Wagner's Ring, while 3992 Wagner and 1260 Walhalla are named after the composer and the Walhalla memorial hall of fame, respectively.

Physical characteristics

In the Tholen classification, Walküre is a dark, carbonaceous F-type asteroid, while in the SDSS-based taxonomy and in the Barucci-taxonomy, it is a common carbonaceous C-type and C0-type asteroid, respectively.

Rotation period

In February 2011, a rotational lightcurve of Walküre was obtained from photometric observations by astronomer Li Bin at the XuYi Station (D29) of the Purple Mountain Observatory in China. Lightcurve analysis gave a rotation period of 17.424±0.004 hours with a brightness variation of 0.44±0.03 magnitude, indicative of an elongated shape (U=3−). The result supersedes observations by Richard Binzel (1982) and René Roy (2005), who determined a period of 17.49 and 17.44±0.02 with an amplitude of 0.40 and 0.33±0.01 magnitude, respectively (U=2/2).

Poles

Two lightcurves, published in 2016, using modeled photometric data from the Lowell Photometric Database (LPD) and other sources, gave a concurring sidereal period of 17.4217±0.0001 and 17.4217±0.0005 hours, respectively. Each modeled lightcurve also determined two spin axes of (68.0°, 58.0°) and (253.0°, 61.0°), as well as (262.0°, 71.0°) and (47.0°, 66.0°) in ecliptic coordinates (λ,β).

Diameter and albedo

According to the surveys carried out by the NEOWISE mission of NASA's Wide-field Infrared Survey Explorer (WISE), the Japanese Akari satellite, and the Infrared Astronomical Satellite IRAS, Walküre measures (34.79±8.41), (38.41±1.4) and (39.93±0.51) kilometers in diameter and its surface has an albedo of (0.05±0.03), (0.0623±0.005) and (0.058±0.002), respectively. The Collaborative Asteroid Lightcurve Link derives an albedo of 0.0634 and gives a diameter of 38.41 kilometers (identical to IRAS) based on an absolute magnitude of 10.69. Alternative mean-diameter measurements published by the WISE team include (37.34±9.49 km) and (42.553±15.236 km) with corresponding albedos of (0.05±0.02) and (0.037±0.020).

References

  1. ^ "877 Walkure (A915 RV)". Minor Planet Center. Retrieved 28 February 2020.
  2. ^ Schmadel, Lutz D. (2007). "(877) Walküre". Dictionary of Minor Planet Names. Springer Berlin Heidelberg. p. 79. doi:10.1007/978-3-540-29925-7_878. ISBN 978-3-540-00238-3.
  3. ^ "JPL Small-Body Database Browser: 877 Walkure (A915 RV)" (2020-02-03 last obs.). Jet Propulsion Laboratory. Retrieved 28 February 2020.
  4. ^ "Asteroid 877 Walkure – Proper Elements". AstDyS-2, Asteroids – Dynamic Site. Retrieved 28 February 2020.
  5. ^ "Asteroid 877 Walkure". Small Bodies Data Ferret. Retrieved 28 February 2020.
  6. ^ Nugent, C. R.; Mainzer, A.; Bauer, J.; Cutri, R. M.; Kramer, E. A.; Grav, T.; et al. (September 2016). "NEOWISE Reactivation Mission Year Two: Asteroid Diameters and Albedos". The Astronomical Journal. 152 (3): 63. arXiv:1606.08923. Bibcode:2016AJ....152...63N. doi:10.3847/0004-6256/152/3/63. ISSN 0004-6256.
  7. ^ Tedesco, E. F.; Noah, P. V.; Noah, M.; Price, S. D. (October 2004). "IRAS Minor Planet Survey V6.0". NASA Planetary Data System. 12: IRAS-A-FPA-3-RDR-IMPS-V6.0. Bibcode:2004PDSS...12.....T. Retrieved 28 February 2020.
  8. ^ Usui, Fumihiko; Kuroda, Daisuke; Müller, Thomas G.; Hasegawa, Sunao; Ishiguro, Masateru; Ootsubo, Takafumi; et al. (October 2011). "Asteroid Catalog Using Akari: AKARI/IRC Mid-Infrared Asteroid Survey". Publications of the Astronomical Society of Japan. 63 (5): 1117–1138. Bibcode:2011PASJ...63.1117U. doi:10.1093/pasj/63.5.1117. (online, AcuA catalog p. 153)
  9. ^ Bin, Li; Haibin, Zhao; Jingshen, Yao (October 2011). "Lightcurve Analysis of Five Asteroids" (PDF). Minor Planet Bulletin. 45 (4): 179–180. Bibcode:2011MPBu...38..179L. Retrieved 28 February 2020.
  10. ^ "LCDB Data for (877) Walküre". Asteroid Lightcurve Database (LCDB). Retrieved 28 February 2020.
  11. ^ Carvano, J. M.; Hasselmann, P. H.; Lazzaro, D.; Mothé-Diniz, T. (February 2010). "SDSS-based taxonomic classification and orbital distribution of main belt asteroids". Astronomy and Astrophysics. 510: 12. Bibcode:2010A&A...510A..43C. doi:10.1051/0004-6361/200913322. Retrieved 30 October 2019. (PDS data set)
  12. Behrend, Raoul. "Asteroids and comets rotation curves – (877) Walküre". Geneva Observatory. Retrieved 28 February 2020.
  13. Binzel, R. P. (October 1987). "A photoelectric survey of 130 asteroids". Icarus. 72 (1): 135–208. Bibcode:1987Icar...72..135B. doi:10.1016/0019-1035(87)90125-4. ISSN 0019-1035.
  14. Ďurech, J.; Hanuš, J.; Oszkiewicz, D.; Vančo, R. (March 2016). "Asteroid models from the Lowell photometric database". Astronomy and Astrophysics. 587: A48. arXiv:1601.02909. Bibcode:2016A&A...587A..48D. doi:10.1051/0004-6361/201527573. ISSN 0004-6361. S2CID 118427201.
  15. Hanuš, J.; Ďurech, J.; Oszkiewicz, D. A.; Behrend, R.; Carry, B.; Delbo, M.; et al. (February 2016). "New and updated convex shape models of asteroids based on optical data from a large collaboration network". Astronomy and Astrophysics. 586: A108. arXiv:1510.07422. Bibcode:2016A&A...586A.108H. doi:10.1051/0004-6361/201527441. ISSN 0004-6361. S2CID 119112278.

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