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Hubble Lends a Helping Hand to NASA’s James Webb Space Telescope

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Hubble Space Telescope Over Earth 3D Animation
Hubble Space Telescope Over Earth 3D Animation

3D animation showing the Hubble Space Telescope over the Earth. Credit: ESA/Hubble (M. Kornmesser & L. L. Christensen)

Far above rain clouds, light pollution, and atmospheric distortion, launched on December 25. Built to advance science goals motivated by Hubble’s discoveries, Webb will have a head start on its mission to learn more about the oldest galaxies in our cosmos, mysterious planets beyond other stars, and much more. This type of mission collaboration has been an important part of Hubble’s legacy.

 

NASA's James Webb Space Telescope Illustration

NASA’s James Webb Space Telescope is the successor to the Hubble Space Telescope, the most powerful infrared science observatory ever to be sent into space. From its orbit nearly a million miles from Earth, Webb will study some of the most distant objects in the universe. Credit: NASA

Uncovering Our Solar System

Hubble has supported several of NASA’s most important and compelling planetary missions. The science and images gathered from these missions have not only allowed us to further our understanding of our outer solar system but also provide us with a closer look.

Hubble’s observations of Juno mission has continued to learn more about these cloud layers and what makes the storms stir.

New Horizons Spacecraft

Artist conception of New Horizons Spacecraft. Credit: Johns Hopkins University Applied Physics Laboratory/Southwest Research Institute

The New Horizons mission used Hubble observations to learn more about its target, the dwarf planet NASA’s Lucy mission, which launched in October 2021. These asteroids orbit the Sun in tandem with Jupiter and are thought to be left over from the formation of the solar system. Because Hubble can detect a small, dim satellite orbiting a larger asteroid – something an Earth-bound telescope might miss – the Lucy team is using Hubble to search for Trojan satellites prior to Lucy’s launch. They made their first round of observations in the fall of 2018.

Lucy Trojan Asteroid Mission

Lucy will explore the Jupiter Trojan asteroids – thought to be “fossils of planet formation.” Credit: NASA’s Goddard Space Flight Center

The next year they spotted something that might have been a satellite near Eurybates, a Trojan asteroid, and submitted an urgent proposal to use Hubble again. They were able to get their observations about a month later. Hubble discovered that Eurybates has a small satellite, subsequently named Queta. This discovery has become a “bonus” science exploration opportunity for the spacecraft as it will be visiting not seven but eight asteroids, targeted for a flyby in 2027.

Though searching for satellites is one of the mission’s central goals, finding these tiny worlds before Lucy launched gives the team the opportunity to investigate their orbits and plan for more detailed follow-up observations with the spacecraft.

Exoplanets, Stars, Galaxies, and More

When Hubble launched over 30 years ago, astronomers had no way to prove that planets existed outside our solar system.

Today, thousands of exoplanets are known to exist. Hubble currently works alongside other space telescopes like Transiting Exoplanet Survey Satellite, which aims to find promising exoplanets orbiting our nearest and brightest stars. Hubble supports these TESS discoveries by obtaining ultraviolet spectra of the exoplanets’ host stars to establish how radiation from stars affects their exoplanets’ atmospheric chemistry and composition. Hubble also collects measurements of TESS Mission Finds Its Smallest Planet Yet

Illustration of NASA’s Transiting Exoplanet Survey Satellite. Credit: NASA’s Goddard Space Flight Center

Among many other goals, the James Webb Space Telescope will observe exoplanets where Hubble provided a confident detection of water in the atmosphere and measure its abundance.

Hubble is also supporting Webb through a series of preparatory science observations to identify potential targets for the telescope. Started in 2016, the program encourages astronomers to submit science proposals for Hubble observations to pave the way for Webb’s observations. Once launched, the telescope will be able to immediately start probing deeper into stellar populations and building upon observations of galaxies and their forms.

Recently, Hubble had its eye on a relic galaxy, NGC 1277, whose stars were born 10 billion years ago – but it has undergone no further star formation. Galaxies like NGC 1277 are called “red and dead,” and are typically too far away to be studied in detail. Webb will be able to measure the motions of the globular star clusters in NGC 1277 and potentially learn more about the dark matter it contains, providing new insight into this type of galaxy.

NASA’s Roman Space Telescope, set to launch in the mid-2020s, will observe many objects Hubble or Webb already studied. It won’t focus on a single object, but rather build upon the large mosaics taken by Hubble due to Roman’s large field of view and detectors. One example is the PHAT mosaic which covers a third of the Andromeda Galaxy and was created with over 400 Hubble images. Roman will capture this view in infrared light using only two images, opening a world of understanding about galaxies and their components.

The Future of Astronomy in Deep Space

The COSMOS survey began in 2002 as a Hubble program to image a wide and deep patch of sky, about the area of 10 full moons. Once Webb begins science observations in the summer of 2022, it will build on that legacy by surveying a half-million galaxies within that patch of sky, becoming the largest project Webb will undertake during its first year. Called COSMOS-Webb, this in-depth survey will allow scientists to learn more about dark matter and how it has evolved with galaxies and their stars over the universe’s lifetime.

Gravitational waves are ‘ripples’ in space-time caused by some of the most violent and energetic processes in the universe; these disturbances can be picked up with ground-based detectors like the Laser Interferometer Gravitational-Wave Observatory, which is funded by the National Science Foundation and operated by Caltech and (function(d, s, id){ var js, fjs = d.getElementsByTagName(s)[0]; if (d.getElementById(id)) return; js = d.createElement(s); js.id = id; js.src = "//connect.facebook.net/en_US/sdk.js#xfbml=1&version=v2.6"; fjs.parentNode.insertBefore(js, fjs); }(document, 'script', 'facebook-jssdk'));

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