| Discovery | |
|---|---|
| Discovered by | E. J. Christensen (Catalina Sky Survey) |
| Discovery date | 6 May 2006 |
| Designations | |
| 2006 JY26 | |
| Orbital characteristics[1][2][3] | |
| Epoch 13 January 2016 (JD 2457400.5) | |
| Uncertainty parameter 3 | |
| Aphelion | 1.094127 AU (163.6791 Gm) |
| Perihelion | 0.926254 AU (138.5656 Gm) |
| 1.010191 AU (151.1224 Gm) | |
| Eccentricity | 0.083090 |
| 1.02 yr (370.85 d) | |
| 114.637° | |
| 0° 58m 14.632s / day | |
| Inclination | 1.43911° |
| 43.4687° | |
| 273.635° | |
| Jupiter MOID | 3.98181 AU (595.670 Gm) |
| Physical characteristics | |
| Dimensions | 6–13 m[a][4] |
| 28.4[1] | |
2006 JY26 is anear-Earth object that is alsohorseshoe companion to theEarth like3753 Cruithne.[5]
2006 JY26 was discovered by E. J. Christensen on 6 May 2006, observing for theCatalina Sky Survey.[6][7] Its orbit is characterized by low eccentricity (0.083), low inclination (1.44º) and a semi-major axis of 1.01 AU.[7] Upon discovery, it was classified as anApolloasteroid but also anEarth crosser by theMinor Planet Center. The orbit is based on 76 observations spanning a data-arc of 4 days.[8]2006 JY26 has anabsolute magnitude (H) of 28.4 which gives a characteristic diameter of about 9 meters.[8]
| Date | Impact probability (1 in) | JPL Horizons nominal geocentric distance (AU) | uncertainty region (3-sigma) |
|---|---|---|---|
| 2073-05-03 09:36 | 330 thousand | 0.025 AU (3.7 million km) | ±2.4 million km |
| 2074-05-03 00:43 | 210 | 0.0099 AU (1.48 million km) | ±2.8 million km[10] |
| 2075-05-01 10:34 | 2.4 million | 0.14 AU (21 million km) | ±23 million km |
It is listed on theSentry Risk Table with a 1 in 210 chance ofimpacting Earth on 3 May 2074.[9][11] Thenominal best-fit orbit shows that2006 JY26 will be 0.0099 AU (1,480,000 km; 920,000 mi) from Earth on 3 May 2074.[8] An impact from this object would be less severe than theChelyabinsk meteor.
Recent calculations indicate that it follows a horseshoe orbit with respect to the Earth.[5] It had a close encounter with theEarth on 10 May 2006, at 0.0029 AU (430,000 km; 270,000 mi).[8] Its orbital evolution is verychaotic and its orbit is difficult to predict beyond a few hundred years.[5] Its orbit matches the expected properties of that of an object in theArjuna-class.
It may have been originated within theVenus–Earth–Mars region or in the main asteroid belt like othernear-Earth objects, then transition toAmor-class asteroid before entering Earth's co-orbital region.[5]
