11月 14, 2024

FUTSALNET

日本からの最新ニュースと特集:ビジネス、政治、解説文化、ライフ&スタイル、エンターテインメント、スポーツ。

宇宙の宝探しで ESA ジュースを放出する

宇宙の宝探しで ESA ジュースを放出する

欧州宇宙機関の最新の惑星間ミッションであるジュースは、2023 年 4 月 14 日現地時間 9 時 14 分 / 中央ヨーロッパ標準時 14 時 14 分に欧州宇宙港からアリアン 5 ロケットで打ち上げられ、木星への 8 年間の旅を開始しました。巨大ガス惑星にある 3 つの大きな海洋衛星、ガニメデ、カリスト、エウロパ。 クレジット: ESA – M.Pedoussaut

ESAの[{” attribute=””>Jupiter Icy Moons Explorer (Juice) lifted off on an Ariane 5 rocket from Europe’s Spaceport in French Guiana at 9:04 a.m. EDT on April 14. The successful launch marks the beginning of an ambitious voyage to uncover the secrets of the ocean worlds around giant planet Jupiter.

Following launch and separation from the rocket, ESA’s European Space Operations Centre (ESOC) in Darmstadt, Germany, confirmed acquisition of signal via the New Norcia ground station in Australia at 9:04 a.m. EDT (15:04 CEST). The spacecraft’s vast 27 meter (88 foot) long solar arrays unfurled into their distinctive cross shapes at 9:33 a.m. EDT (15:33 CEST), ensuring Juice can travel to the outer Solar System. The completion of this critical operation marked the launch a success.

“ESA, with its international partners, is on its way to Jupiter,” says ESA Director General Josef Aschbacher. “Juice’s spectacular launch carries with it the vision and ambition of those who conceived the mission decades ago, the skill and passion of everyone who has built this incredible machine, the drive of our flight operations team, and the curiosity of the global science community. Together, we will keep pushing the boundaries of science and exploration in order to answer humankind’s biggest questions.”


欧州宇宙機関の最新の惑星間ミッションであるジュースは、2023 年 4 月 14 日 14:14 CEST にフランス領ギアナの欧州宇宙港からアリアン 5 ロケットで打ち上げられ、木星への 8 年間の旅を開始しました。ガスの詳細。 巨大惑星の 3 つの大きな海洋衛星: ガニメデ、カリスト、エウロパ。 フライト VA260 は、ESA ミッションを宇宙に運ぶ最後のアリアン 5 フライトです。 クレジット: ESA/CNES/アリアナスペース

ESA のスムージー プロジェクト マネージャーであるジュゼッペ サッリ氏は、「欧州宇宙機関のリーダーシップと、何百ものヨーロッパの産業と科学機関の努力とコミットメントのおかげで、JUICE の使命は現実のものとなりました。 私たちのパートナーと[{” attribute=””>NASA, the Japan Aerospace Exploration Agency, and the Israel Space Agency, who have also contributed hardware or scientific instrumentation, we have reached this much-awaited launch milestone.”

From Galileo to Juice

Jupiter, shining brightly in the night sky, has sparked fascination ever since our ancient ancestors first looked up. Astronomer Galileo Galilei brought Jupiter into focus in 1610, observing the planet through a telescope for the first time and discovering its orbiting moons. His observations overturned the long-held idea that everything in the heavens revolved around Earth. Centuries later, Juice – which carries a commemorative plaque in honor of Galileo’s discoveries – will see Jupiter and its moons in a way that Galileo couldn’t even have dreamt of.

ESA Juice Jupiter Icy Moons Explorer

In the artist’s impression of Juice, which is not to scale, Ganymede is shown in the foreground, Callisto to the far right, and Europa center right. Volcanically active moon Io is also shown, at left. The moons were imaged by NASA’s Galileo spacecraft; Jupiter is seen here with a vivid aurora, captured by the NASA/ESA Hubble Space Telescope. Credit: Spacecraft: ESA/ATG medialab; Jupiter: NASA/ESA/J. Nichols (University of Leicester); Ganymede: NASA/JPL; Io: NASA/JPL/University of Arizona; Callisto and Europa: NASA/JPL/DLR

Thanks to the legacy of previous Jupiter missions (see infographic below) we know that three of the planet’s largest moons – Europa, Ganymede, and Callisto – hold quantities of water buried under their surfaces in volumes far greater than in Earth’s oceans. These planet-sized moons offer us tantalizing hints that conditions for life could exist other than here on our ‘pale blue dot’, and Juice is equipped to bring us one step closer to answering this alluring question.

Missions to Jupiter

Overview of ESA and NASA missions that have visited or will visit Jupiter.
On the left of the timeline are spacecraft designed to orbit the gas giant, with the stated date range from arrival at Jupiter to end of mission. On the right of the timeline are spacecraft that have flown by Jupiter on their way to the more distant reaches of the Solar System; the stated dates show the year that the spacecraft flew past the gas giant.
ESA’s Jupiter Icy Moons Explorer (Juice) mission launched on April 14, 2023, to make detailed observations of the giant gas planet and its three large ocean-bearing moons – Ganymede, Callisto and Europa – with a suite of remote sensing, geophysical and in situ instruments. Juice will characterize these moons as both planetary objects and possible habitats, explore Jupiter’s complex environment in depth, and study the wider Jupiter system as an archetype for gas giants across the Universe.
The first person to view Jupiter and its largest moons through a telescope was Galileo Galilei in 1609. Over 400 years later and humanity’s ever-long desire to look up and explore worlds beyond our own lives on; Juice will carry a commemorative plaque, as a tribute to the Italian astronomer.
Credit: ESA (Acknowledgement: work performed by ATG under contract to ESA), CC BY-SA 3.0 IGO

“Over 400 years ago, Galileo discovered moons orbiting Jupiter – news that shocked the Renaissance world and revolutionized humankind’s understanding of our place in the Universe,” says Carole Mundell, ESA’s Director of Science. “Today, we have sent a suite of ground-breaking science instruments on a journey to those moons that will give us an exquisite close-up view that would have been unimaginable to previous generations. Juice carries the dreams of anyone who’s ever gazed up at Jupiter shining brightly in the night sky and wondered about our origins.

“The treasure trove of data that ESA Juice will provide will enable the science community worldwide to dig in and uncover the mysteries of the jovian system, explore the nature and habitability of oceans on other worlds, and answer questions yet unasked by future generations of scientists.”


素晴らしい発見の旅が始まろうとしています。 太陽系外縁部への人類の次の大胆なミッションである、欧州宇宙機関の木星氷衛星探査機は、巨大な惑星木星とその最大の月を探査する態勢を整えています。 これらのエキサイティングな世界は、ガリレオが最初に望遠鏡を惑星に向け、イオ、エウロパ、ガニメデ、カリストの 4 つの最大の衛星を発見して以来、私たちの好奇心をかき立ててきました。 クレジット: ESA/ATG medialab 制作

木星への旅

Juice は、アリアン 5 で打ち上げられた最後の ESA 宇宙科学ミッションであり、1999 年にさかのぼる XMM-Newton の打ち上げにさかのぼる長い遺産 (下の図を参照) があり、最近では NASA/ESA /カナダ宇宙庁[{” attribute=””>James Webb Space Telescope in 2021.

“What a magnificent demonstration of Europe’s capacity to dream big and deliver results to match,” says Daniel Neuenschwander, ESA’s Director of Space Transportation. “We can all be proud of Ariane 5 for making possible missions like Juice and setting such a high standard for our new generation of launch systems.”

Ariane 5 Legacy of Launching Science Missions Infographic

ESA’s Ariane 5, manufactured by ArianeGroup, has been in operation since 1996 and has already completed more than 100 launches from Europe’s Spaceport in French Guiana. It is 53 m high and 5.4 m in diameter with a liftoff mass of 780 tonnes.
The Jupiter Icy Moons Explorer (Juice) will be the last ESA mission to launch on an Ariane 5 before Ariane 6 takes over. Credit: ESA (Acknowledgment: work performed by ATG under contract to ESA), CC BY-SA 3.0 IGO

Over the next two-and-half weeks (see infographic below) Juice will deploy its various antennas and instrument booms, including the 16 m long radar antenna, 10.6 m long magnetometer boom, and various other instruments that will study the environment of Jupiter and the subsurface of the icy moons.

An eight-year cruise with four gravity-assist flybys at Earth and Venus will slingshot the spacecraft toward the outer Solar System. The first flyby in April 2024 will mark a space exploration first: Juice will perform a lunar-Earth gravity-assist – a flyby of the Moon followed 1.5 days later by one of Earth.

Juice Launch and Deployment Timeline

ESA’s Jupiter Icy Moons Explorer (Juice) will launch in April 2023 from Europe’s Spaceport in Kourou, French Guiana, on an Ariane 5 launcher. Juice will separate from the Ariane 5 28 minutes after launch, then five minutes later, ESA will start tracking Juice using ground stations. Between 99 minutes and 17 days post launch, Juice’s solar arrays, antennas, probes, and magnetometer boom will be deployed, after which Juice is ready to continue its eight-year journey to Jupiter. Credit:
ESA (Acknowledgment: work performed by ATG under contract to ESA), CC BY-SA 3.0 IGO

ESA’s spacecraft operators, technology engineers, and mission analysts have worked exhaustively to prepare for the challenges that lie ahead on this adventurous mission.

Shields will protect the spacecraft’s sensitive electronics from the monstrous levels of radiation in the Jupiter system. Multi-layered insulation will keep internal temperatures stable while externally they may reach more than 250ºC during the Venus flyby and -230ºC at Jupiter.

Juice’s Journey to Jupiter

ESA’s Jupiter Icy Moons Explorer (Juice) is set to embark on an eight-year cruise to Jupiter starting in April 2023. The mission will investigate the emergence of habitable worlds around gas giants and the Jupiter system as an archetype for the numerous giant planets now known to orbit other stars.
On its journey, Juice will make a series of flybys of Earth, the Earth-Moon system and Venus to set it on course for its July 2031 rendezvous in the Jovian system.
Juice will make three Earth flybys during its cruise: one of the Earth-Moon system in August 2024, one of Earth in September 2026, and once again one of Earth in January 2029.
In total Juice will spend approximately eight years cruising to Jupiter. It will reach Jupiter in July 2031, but will already begin making scientific observations six months before entering orbit around Jupiter. Juice will go on to spend many months orbiting Jupiter, making 35 flybys of icy moons Europa, Ganymede and Callisto, and finally conducting an orbital tour of Ganymede.
Credit: ESA (Acknowledgment: work performed by ATG under contract to ESA), CC BY-SA 3.0 IGO

“Hundreds of millions of kilometers from Earth and powered by just a sliver of sunlight, we will guide Juice through 35 flybys of Jupiter’s ocean moons in order to gather the data needed to bring scientists closer than ever to these compelling destinations,” says Ignacio Tanco, ESA’s Juice spacecraft operations manager.

“To fly such a complex path from such an enormous distance – and vitally, to get Juice’s valuable data home to Earth – will require precise navigation techniques, reliant on ESA’s deep space antennas in Spain, Argentina and Australia, all controlled remotely from ESOC.”

Juice Operating Extreme Environment

Designing a spacecraft for a trip to the outer Solar System is no easy feat. The Jupiter Icy Moons Explorer (Juice) will have to cope with challenges like very high and low temperatures, a lack of sunlight at Jupiter, and high levels of radiation around Jupiter.
Juice has been specially designed to overcome all these challenges and many more. For example, shields have been built to protect the spacecraft’s sensitive electronics, large solar panels will enable it to collect lots of sunlight, Multi-Layer Insulation will keep it at a stable temperature, a large antenna will help it communicate with engineers on Earth, and a powerful onboard computer – Juice’s ‘brain’ – will help it to solve some problems independently, without needing to contact Earth at all.
Credit: ESA (Acknowledgment: work performed by ATG under contract to ESA), CC BY-SA 3.0 IGO

“We are ready to steer one of the most complex missions ESA has ever flown to adventures in the jovian system,” says Angela Dietz, deputy spacecraft operations manager. “From flybys of Jupiter’s moons over a period of two-and-a-half years, to the immense challenge of switching orbits from massive Jupiter to orbiting Ganymede, we’ll be solving challenges at mission control that have never been done before.”


欧州宇宙機関の Jupiter Icy Moons Explorer (Juice) ミッションによって解決される上位 5 つの謎を発見してください。 木星、その磁気環境、およびその月は、太陽系で最も興味深いシステムの 1 つを構成しています。 2023 年に打ち上げられ、2031 年に木星に到着する予定のジュースは、この魅力的な惑星とその自然の衛星についてさらに明らかにします。 クレジット: ESA -[{” attribute=””>European Space Agency

Explore farther

Ganymede, which is larger than the planet Mercury, is Juice’s primary scientific target; it will spend around nine months observing the moon closely from orbit. Ganymede has a particularly intriguing characteristic besides its hidden ocean: it is the only moon in the Solar System to generate its own magnetic field. Only two other solid bodies generate a field like Ganymede’s – Mercury and Earth.

The effect is a mini ‘magnetic bubble’ sitting within Jupiter’s larger one, and the two interact in highly complex ways. Juice will reveal more about the interior structure of Ganymede and in doing so will be able to determine how its core is able to generate and maintain a magnetic field. This will be key to understanding how the moon evolved, and the consequences for habitability.

Inside Ganymede

This animation shows the interior structure of Jupiter’s moon Ganymede. Ganymede is thought to host subsurface liquid oceans that will be explored in detail by ESA’s Jupiter Icy Moons Explorer (Juice). It has an icy crust with evidence of a subsurface liquid ocean overlying an icy mantle, a rocky mantle, and core. Juice will characterize the icy crust and the extent of the subsurface ocean. It will also measure Ganymede’s intrinsic magnetic field in great detail. It is the only moon in the Solar System to generate its own magnetic field, which has complex interactions with Jupiter’s own vast magnetic field, and Juice will study the relationship between the two.
Understanding the state of the moon’s interior, and in particular, if it hosts liquid water, will help answer important questions about the habitability potential of the moon, and of similar exoplanet systems elsewhere in our Universe.
Credit: ESA/ATG Medialab

Ganymede also displays a wide range of surface ages and features, offering a geological record spanning several billion years. This complements its ‘siblings’ – ancient Callisto, which may hold clues to early conditions in the jovian system, and young and active Europa, which vents water into space.

“The scientific treasure that will be returned will undoubtedly have far-reaching implications on how we understand our Solar System and if there are potentially habitable locations beyond Earth – not just in our own cosmic neighborhood but also well beyond in the vast number of exoplanet systems populating our Universe,” says Olivier Witasse, ESA’s Juice project scientist. “In turn, this knowledge will make us richer beings, learning more about ourselves, our origins, and our place in the Universe.”

Juice Exploring Jupiter and Ganymede

Juice will make detailed observations of the giant gas planet and its three large ocean-bearing moons – Ganymede, Callisto, and Europa – with a suite of instruments. By making flybys of these moons at distances of just a few hundred kilometers, and even going into orbit around Ganymede, Juice will characterize them as both planetary objects and possible habitats. The mission will also explore Jupiter’s complex environment in depth, and study the wider Jupiter system as an archetype for gas giants across the Universe. Credit: ESA (Acknowledgment: ATG Medialab)

About Juice

ESA’s Jupiter Icy Moons Explorer, ‘Juice’, is humankind’s next bold mission to the outer Solar System. It will make detailed observations of gas giant Jupiter and its three large ocean-bearing moons – Ganymede, Callisto and Europa. This ambitious mission will characterize these moons with a powerful suite of remote sensing, geophysical, and in situ instruments to discover more about these compelling destinations as potential habitats for past or present life. Juice will monitor Jupiter’s complex magnetic, radiation, and plasma environment in depth and its interplay with the moons, studying the Jupiter system as an archetype for gas giant systems across the Universe.

Juice launches on an Ariane 5 from Europe’s Spaceport in Kourou in April 2023. It has an eight-year cruise with flybys of Earth and Venus to slingshot it to Jupiter. It will make 35 flybys of the three large moons while orbiting Jupiter, before changing orbits to Ganymede.

Juice is a mission under ESA leadership with contributions from NASA, JAXA, and the Israel Space Agency. It is the first Large-class mission in ESA’s Cosmic Vision program.

READ  ハッブルは、1,450 光年離れたオリオン大星雲で見事な星のデュオを捉えています