AGL 40.74 Increased By ▲ 0.71 (1.77%)
AIRLINK 128.34 Increased By ▲ 0.64 (0.5%)
BOP 6.68 Increased By ▲ 0.07 (1.06%)
CNERGY 4.54 Decreased By ▼ -0.06 (-1.3%)
DCL 9.18 Increased By ▲ 0.39 (4.44%)
DFML 41.70 Increased By ▲ 0.12 (0.29%)
DGKC 87.00 Increased By ▲ 1.21 (1.41%)
FCCL 32.68 Increased By ▲ 0.19 (0.58%)
FFBL 64.56 Increased By ▲ 0.53 (0.83%)
FFL 11.61 Increased By ▲ 1.06 (10.05%)
HUBC 112.49 Increased By ▲ 1.72 (1.55%)
HUMNL 14.95 Decreased By ▼ -0.12 (-0.8%)
KEL 5.03 Increased By ▲ 0.15 (3.07%)
KOSM 7.30 Decreased By ▼ -0.15 (-2.01%)
MLCF 40.70 Increased By ▲ 0.18 (0.44%)
NBP 61.60 Increased By ▲ 0.55 (0.9%)
OGDC 196.50 Increased By ▲ 1.63 (0.84%)
PAEL 27.56 Increased By ▲ 0.05 (0.18%)
PIBTL 7.71 Decreased By ▼ -0.10 (-1.28%)
PPL 154.20 Increased By ▲ 1.67 (1.09%)
PRL 26.87 Increased By ▲ 0.29 (1.09%)
PTC 16.40 Increased By ▲ 0.14 (0.86%)
SEARL 83.88 Decreased By ▼ -0.26 (-0.31%)
TELE 7.84 Decreased By ▼ -0.12 (-1.51%)
TOMCL 36.45 Decreased By ▼ -0.15 (-0.41%)
TPLP 8.93 Increased By ▲ 0.27 (3.12%)
TREET 17.10 Decreased By ▼ -0.56 (-3.17%)
TRG 59.20 Increased By ▲ 0.58 (0.99%)
UNITY 27.90 Increased By ▲ 1.04 (3.87%)
WTL 1.33 Decreased By ▼ -0.05 (-3.62%)
BR100 10,131 Increased By 131.1 (1.31%)
BR30 31,316 Increased By 313.5 (1.01%)
KSE100 94,960 Increased By 768 (0.82%)
KSE30 29,500 Increased By 298.4 (1.02%)

Astronomers announced Monday the discovery of the youngest planet ever found outside our solar system, lending new insight into how planetary systems form. The 11 million-year-old exoplanet, named K2-33b, swiftly orbits around its star - K2-33 - in just 5.4 days. The exoplanet's existence suggests that planets can quickly finalise their orbital distances after forming. Astronomers have published details of their findings in the Astronomical Journal, a scientific review published by the American Astronomical Society.
About five times the size of Earth, which is about 4.5 billion years old, the youthful exoplanet is categorised as a "super-Neptune." About 470 light-years away from Earth, it's located in the Scorpio constellation. These planets either form near to their star or migrate inward as they form out of the thick disks of gas and dust that surround young stars.
Study co-author Andrew Mann, astronomer at the University of Texas at Austin, speculated that the orbital migration patterns of close-in planets may affect how terrestrial planets form. "If Jupiter or Neptune had migrated inward after the terrestrial planets formed, it seems unlikely that our solar system would have an Earth, or any of the terrestrial planets at all," Mann said in a statement. Researchers discovered the planet using NASA's Kepler space telescope. Astronomers then conducted additional observations with telescopes to confirm K2-33b's existence and determine the exoplanet's characteristics and properties.

Copyright Agence France-Presse, 2016

Comments

Comments are closed.