![]() IRTF’s value to more general astrophysics will also be evaluated. The objective of the review is to examine the IRTF’s scientific productivity and to assess its role in meeting NASA goals, in particular solar system science and mission support, and to decide if operations should continue. IRTF is the only NASA-owned ground-based astronomical telescope. An extensive written review was submitted to the review panel prior to the visit. NASA HQ conducted an Independent Review of IRTF in February, visiting the telescope on February 1 and meeting with IRTF staff in Hilo on February 2. Remote observing is offered from any location with broadband Internet access for any project that utilizes IRTF facility instruments. Please review the information and use our ONLINE application formĪvailable instruments are listed here. In the future, the researchers want to see if they can measure the planet’s orbital motion around its star, and future telescopes like the upcoming James Webb Space Telescope could even be used to see the gases in its atmosphere or detect a moon-forming disk of matter around it.Proposal Deadline for Semester 2023B (Augto January 31, 2024) is Monday, April 3, 2023, 5PM Hawaii Standard time. ![]() “By analyzing the light from this planet we can say something about its composition, and perhaps where and how it formed in a long-vanished disk of gas and dust around its host star.” The summit of Maunakea, Hawai’i at night, showing the two Keck telescope domes in the front right. “This serendipitous discovery adds to an elite list of planets that we can directly observe with our telescopes,” said lead author Eric Gaidos, a professor at the University of Hawaiʻi at Mānoa, in a statement. Hubble Space Telescope snaps sparkling globular cluster near the heart of our galaxy Super-sensitive exoplanet-hunting instrument captures its first light data Hubble observes weird star system with three off-kilter, planet-forming disks Even with the help of the planet’s far distance from its star and its large size, it still took three years of observations to verify the presence of the planet and to image it. The planet was first spotted using the Subaru Telescope, located on Maunakea in Hawai’i, and was then further observed using the nearby W. The much-brighter host star has been mostly removed, and the four “spikes” are artifacts produced by the optics of the telescope. The image was taken by IRCS on the Subaru Telescope on Maunakea. A direct image of the planet 2M0437, which lies about 100 times the earth-sun distance from its parent star. It formed a few million years ago, which is a blink of the eye in cosmic timescales, and it is so young that it is still hot from the energy released during its formation. Planet 2M0437b orbits far from its star, at around 100 times the distance between Earth and the sun, and is several times the mass of Jupiter. Recently, astronomers had the rare treat of observing an exoplanet directly - and it’s one of the youngest planets ever found. We’ve discovered thousands of planets beyond our solar system, but the vast majority of these have been observed indirectly by seeing how the planet affects the star around which it orbits.
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