Crews Handing Over Responsibilities and Continuing Research

Crews Handing Over Responsibilities and Continuing Research

From left, Expedition 70 crewmates Konstantin Borisov, Andreas Mogensen, Jasmin Moghbeli, and Satoshi Furukawa are due to return to Earth aboard the SpaceX Dragon spacecraft.
From left, Expedition 70 crewmates Konstantin Borisov, Andreas Mogensen, Jasmin Moghbeli, and Satoshi Furukawa are due to return to Earth aboard the SpaceX Dragon spacecraft.

A pair of commercial crews is preparing to switch places onboard the International Space Station next week. The orbital residents are also continuing more space health studies and cargo activities.

Flight Engineers Matthew Dominick, Mike Barratt, Jeanette Epps, and Alexander Grebenkin are in the first week of a six-month space research mission. They spent a good portion of Thursday focusing on adapting to life in microgravity. The quartet joined each other midday and familiarized themselves with the locations and operations of emergency hardware throughout the orbital lab. The foursome then split up taking time to learn how to prepare food and drinks, use the restroom, and avoid cables and gear when maneuvering through passageways.

Barratt and Epps also joined homebound astronaut Satoshi Furukawa of JAXA (Japan Aerospace Exploration Agency) as he demonstrated station systems such as crew quarters, radiation detectors, and ventilation maintenance. Grebenkin met with cosmonaut Konstantin Borisov who is handing over responsibility for the maintenance and control of the European robotic arm.

Dominick was back on human research checking the eyes of NASA Flight Engineer Loral O’Hara on Thursday afternoon. The duo worked in the Columbus laboratory module with Dominick using medical imaging hardware to view O’Hara’s retinas, cornea, and optic nerve for the CIPHER suite of 14 human research experiments. The eye portion of the CIPHER study is exploring how weightlessness affects eye structure and function and ways to protect vision on future planetary missions.

At the end of their shift, Furukawa and Borisov joined crewmates Jasmin Moghbeli of NASA and Andreas Mogensen of ESA (European Space Agency) preparing for their return to Earth next week. The homebound foursome spent a couple of hours coordinating with mission controllers from SpaceX and NASA and simulating undocking techniques. The quartet is targeted to depart the space station on Monday aboard the SpaceX Dragon “Endurance” spacecraft and parachute to a splashdown off the coast of Florida.

The departing crew has spent the week packing Dragon with station cargo and personal items for return. The “Endurance” crewmates have also been handing over mission responsibilities to their replacements to continue space research and maintain lab systems.

Moghbeli also spent a couple of hours Thursday on cardiac research processing cell samples in the Life Science Glovebox to learn how to treat space-caused and Earthbound heart conditions. Mogensen took turns with O’Hara swapping cargo in and out of Northrop Grumman’s Cygnus resupply ship.

Cosmonauts Oleg Kononenko and Nikolai Chub, who will be staying in space a few more months, worked on electronics and battery maintenance and studied the dynamic forces the space station experiences orbiting Earth. Chub also partnered with Borisov testing a specialized suit that may help crews adapt quicker when returning to Earth’s gravity environment after several months in space.


Learn more about station activities by following the space station blog@space_station and @ISS_Research on X, as well as the ISS Facebook and ISS Instagram accounts.

Get weekly video highlights at: https://roundupreads.jsc.nasa.gov/videoupdate/

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Mark Garcia

Texas Students to Hear from NASA Astronaut Aboard Space Station

Texas Students to Hear from NASA Astronaut Aboard Space Station

(Oct. 30, 2023) — NASA astronaut and Expedition 70 Flight Engineer Loral O’Hara replaces hardware inside the Plant Habitat facility to prep for future experiments investigating genetic responses and immune system function of tomatoes in microgravity.
Credits: NASA

The San Antonio River Authority and students from the Advanced Learning Academy in San Antonio, Texas, will have an opportunity Friday, March 8, to hear from NASA astronaut Loral O’Hara aboard the International Space Station.

The space to Earth call will air live at 12:30 p.m. EST March 8, on NASA+, NASA Television, the NASA app, and the agency’s website. Learn how to stream NASA TV through a variety of platforms including social media.

In preparation for the event, students and their families will participate in a star party hosted by the San Antonio Astronomical Association. Students are working on numerous science, technology, engineering, and mathematics (STEM) projects related to astronomy, astronautics, and space technology that will be showcased at Advanced Learning Academy on the day of the event. The River Authority and academy, along with event partners Scobee Education Center at San Antonio College, Southwest Research Institute, and the Science Mill, Johnson City, Texas, will facilitate hands-on STEM activities with the participating K-12 students. In addition, more than 50 school groups and partners representing four Texas counties (Bexar, Wilson, Karnes, Goliad) in the River Authority’s jurisdiction will also host an education downlink viewing party. 

Media interested in covering the event must RSVP no later than 9:30 a.m. Friday, March 8, to Nicole Marshall at nmarshall@sariverauthority.org or 210-302-3252.

For more than 23 years, astronauts have continuously lived and worked aboard the space station, testing technologies, performing science, and developing the skills needed to explore farther from Earth. Astronauts living in space aboard the orbiting laboratory communicate with NASA’s Mission Control Center in Houston 24 hours a day through the Space Communications and Navigation (SCaN) Near Space Network.

Important research and technology investigations taking place aboard the International Space Station benefits people on Earth and lays the groundwork for future exploration. As part of Artemis, NASA will send astronauts to the Moon to prepare for future human exploration of Mars. Inspiring the next generation of explorers – the Artemis Generation – ensures America will continue to lead in space exploration and discovery.

See videos and lesson plans highlighting research on the space station at:

https://www.nasa.gov/stemonstation

-end-

Gerelle Dodson
Headquarters, Washington
202-358-1600
gerelle.q.dodson@nasa.gov

Sandra Jones 
Johnson Space Center, Houston
281-483-5111
sandra.p.jones@nasa.gov

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Roxana Bardan

Senior Communications Specialist Alana Johnson

Senior Communications Specialist Alana Johnson

A woman wearing thick-rimmed glasses, a purple sweater, and a black cardigan smiles widely at the camera. Paintings of worlds across our Solar System are blurred in the background as light from above perfectly frames her face, surrounded by loose, dirty blonde curls.
NASA/Joel Kowsky

“Where I grew up [on my family farm] 100% shaped who I am. In fact, my son and I were talking about high schools and how big his is. His high school population is double the population of the town I grew up in. I had 20 kids in my graduating class, and three of them were foreign exchange students. He asked me, ‘Do you wish you would have gone to a bigger school like us?’ And I said, ‘Actually, no, I don’t.’ I loved where I grew up. I absolutely cherish what it instilled in me, and that’s something I carry with me all the time.

“The earliest lesson was that you are part of something much bigger than yourself. Everybody has an important role in what they’re doing, no matter how small. I remember when we were bringing in the corn. Right now, everybody buys it, but I didn’t buy corn until maybe college because it was a whole family thing. We went and picked the corn. The little kids would shuck it, pulling off all the silk. The grown-ups would shave it off the cob and then push it off to the side, and then the older kids would bag it up into plastic bags. And then everybody went home. It was always about a team. You can be the youngest person or the lowest-ranking person, but you always bring something important to that table.

“Everywhere I’ve been since I got commissioned [as an Air Force officer], my very first office in 1997, I hang an aerial picture of our farm on my wall because it’s [a reminder to] remember where you came from, remember home, and don’t get too big for your britches. No matter what, I could be part of something huge, and I look at that picture and say, ‘I have always been part of something much bigger than myself.’ All the little, tiny moments in life that build upon themselves trace back to that family farm for me.”

– Alana Johnson, Senior Communications Specialist, NASA Headquarters

Image Credit: NASA/Joel Kowsky
Interviewer: NASA/Tahira Allen

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Tahira S. Allen

20 Years Ago: First Image of Earth from Mars and Other Postcards of Home

20 Years Ago: First Image of Earth from Mars and Other Postcards of Home

On March 8, 2004, the Mars Exploration Rover Spirit took the first image of Earth from the surface of another planet. The Earth appearing as nothing more than a bright star provided a new perspective on our home planet, a perspective reshaped over the past eight decades as cameras aboard rockets and spacecraft traveled farther and farther away. From sounding rockets in the 1940s and Earth orbiting satellites in the early 1960s to spacecraft and people traveling to the Moon in the late 1960s and early 1970s and since then to spacecraft exploring all reaches of our solar system, the images of Earth they sent back expanded our horizons while showing an ever-smaller pale blue dot in the vastness of space.

The Mars Exploration Rover Spirit photographed Earth before sunrise in 2004 The Mars Science Laboratory Curiosity rover photographed the Earth-Moon system in 2014
Left: The Mars Exploration Rover Spirit photographed Earth before sunrise in 2004. Right: The Mars Science Laboratory Curiosity rover photographed the Earth-Moon system in 2014.

Shortly after landing in Mars’ Gusev Crater on Jan. 4, 2004, Spirit began sending to Earth remarkable photos of its surroundings. On March 8, it turned its camera skyward in an attempt to photograph the Martian moon Deimos partially eclipsing the Sun as it transited across its disc. Shortly before sunrise, Spirit’s camera managed to capture Earth as a bright star, appearing much as Venus does to terrestrial observers. This marked the first photograph of Earth from another planetary surface. Nearly a decade passed before another rover, the Mars Science Laboratory Curiosity, took another photograph of Earth from its location in Mars’ Gale Crater. The image taken on Jan. 31, 2014, from 99 million miles away, also captured the Moon. These images, and others taken of Earth from ever-more distant vantage points over the past eight decades, provided a new perspective of our home planet’s place in our solar system. Enjoy the following postcards of Earth over the decades.

The first image of Earth taken from space in 1946 by a suborbital rocket, from an altitude of 65 miles The first photograph of Earth taken from orbit, by the Explorer 6 satellite The first television image of Earth, transmitted by the TIROS-1 weather satellite in 1960
Left: The first image of Earth taken from space in 1946 by a suborbital rocket, from an altitude of 65 miles. Image credit: courtesy White Sands Missile Range/Applied Physics Laboratory. Middle: The first photograph of Earth taken from orbit, by the Explorer 6 satellite. Right: The first television image of Earth, transmitted by the TIROS-1 weather satellite in 1960.

On Oct. 24, 1946, more than 10 years before the launch of the first artificial satellite Sputnik, scientists at the White Sands Missile Range in New Mexico placed a camera on top of a captured German V-2 ballistic missile. As the rocket flew to an altitude of about 65 miles – just above the generally recognized border of outer space – the 35-mm motion picture camera snapped a frame every one and a half seconds. Minutes later, the missile came crashing back down and slammed into the ground at more than 340 miles per hour, but the film survived and gave us our first glimpse of Earth from space. On Aug. 14, 1959, the Explorer 6 satellite took the first photograph of Earth from orbit about 17,000 miles high, but the image lacked detail. On April 1, 1960, from an orbital altitude of about 450 miles, the TIROS-1 weather satellite returned the first of its 23,000 television images of the Earth, most of them of sufficient quality for the satellite’s main purpose, weather forecasting.

The first full-disk photograph of Earth, taken by the Soviet Molniya 1-3 communications satellite in 1966 The first image of Earth taken from geostationary orbit, by the Advanced Technology Satellite-1 (ATS-1) satellite in 1966 The first color image of the full Earth from the DODGE (Department of Defense Gravity Experiment) satellite in 1967
Left: The first full-disk photograph of Earth, taken by the Soviet Molniya 1-3 communications satellite in 1966. Middle: The first image of Earth taken from geostationary orbit, by the Advanced Technology Satellite-1 (ATS-1) satellite in 1966. Right: The first color image of the full Earth from the DODGE (Department of Defense Gravity Experiment) satellite in 1967.

The Soviet Molniya 1-3 communications satellite took the first photograph showing the Earth as a full disk on May 30, 1966, although the image quality was somewhat poor. On Dec. 11, 1966, the ATS-1 advanced technology satellite beamed back the first photograph of Earth from geostationary orbit 22,300 miles above Ecuador. The Department of Defense Gravity Experiment (DODGE) satellite returned the first color image of the full Earth in August 1967.

The original photo, top, of Earth taken from lunar orbit by the Lunar Orbiter 1 spacecraft in 1966, and a 2008 digitized version by the Lunar Orbiter Image Recovery Project (LOIRP) The first color image of Earth taken from the surface of the Moon by Surveyor 3 in 1967
Left: The original photo, top, of Earth taken from lunar orbit by the Lunar Orbiter 1 spacecraft in 1966, and a 2008 digitized version by the Lunar Orbiter Image Recovery Project (LOIRP). Image credit: courtesy LOIRP.  Right: The first color image of Earth taken from the surface of the Moon by Surveyor 3 in 1967.

The primary purpose of early robotic spacecraft to the Moon was to prepare for the crewed Apollo missions that followed, including extensive photography of the lunar terrain from orbit and from the surface. The first of five Lunar Orbiter spacecraft designed to map the Moon’s surface from orbit took the first photograph of Earth from lunar distances on Aug. 23, 1966. A digital reconstruction of the original frame in 2008 as part of the Lunar Orbiter Image Recovery Project removed the scan lines and other imperfections. The Surveyor 3 robotic lander, later visited by the Apollo 12 astronauts, took the first photograph of Earth from the lunar surface on April 30, 1967.

The famous Earthrise photograph taken during the Apollo 8 crew’s first orbit around the Moon in 1968 The first photograph of Earth taken by an astronaut standing on the lunar surface, taken during the Apollo 11 Moon landing in 1969 The famous Blue Marble image taken by Apollo 17 astronauts on their way to the Moon in 1972 Earth and Moon photographed during the Artemis I uncrewed mission in 2022
Left: The famous Earthrise photograph taken during the Apollo 8 crew’s first orbit around the Moon in 1968. Middle left: The first photograph of Earth taken by an astronaut standing on the lunar surface, taken during the Apollo 11 Moon landing in 1969. Middle right: The famous Blue Marble image taken by Apollo 17 astronauts on their way to the Moon in 1972. Right: Earth and Moon photographed during the Artemis I uncrewed mission in 2022.

The Apollo missions of the late 1960s and early 1970s returned thousands of stunning and memorable images of humanity’s first exploration of another world. Among them are photographs of the Earth taken by the astronauts that show how small and fragile our planet can appear against the blackness and vastness of space. Arguably, the most famous is the Earthrise photos taken during Apollo 8, the first crewed mission to orbit the Moon in December 1968. The image of the smooth blue ball of Earth appearing suspended over the battered gray lunar terrain provided inspiration for the ecology movement of the time. In July 1969, the first human lunar landing mission, Apollo 11, returned many iconic photographs of Neil A. Armstrong and Edwin E. “Buzz” Aldrin on the surface, and also included the first image of the Earth taken by an astronaut on the Moon. In December 1972, astronauts on the final Apollo lunar landing mission, Apollo 17, took the famous Blue Marble image of the Earth from 72,000 miles away on their way to the Moon. More recently, in November 2012, the uncrewed Artemis I mission imaged the Moon and Earth together, from a distance of 268,563 miles from Earth.

A composite of two separate images of the Earth and Moon, taken by Mariner 10 in 1973 as it headed toward encounters with Venus and Mercury The first image of the Earth-Moon system in a single photographic frame taken by Voyager 1 in 1977 as it departed on its journey to explore Jupiter, Saturn, and beyond The first image of Earth taken by a planetary spacecraft, Galileo, as it made a return encounter with its home planet for a gravity assist in 1990
Left: A composite of two separate images of the Earth and Moon, taken by Mariner 10 in 1973 as it headed toward encounters with Venus and Mercury. Middle: The first image of the Earth-Moon system in a single photographic frame taken by Voyager 1 in 1977 as it departed on its journey to explore Jupiter, Saturn, and beyond. Right: The first image of Earth taken by a planetary spacecraft, Galileo, as it made a return encounter with its home planet for a gravity assist in 1990. 

As planetary spacecraft carried increasingly sophisticated instruments in the 1970s, some turned their cameras toward the Earth as they departed on their long voyages of exploration. In November 1973, a few days after Mariner 10 launched on its mission to explore Venus and Mercury, it snapped separate photographs of the Earth and the Moon, that technicians combined into a composite photo. On Sept. 18, 1977, at a distance of 7.25 million miles, the Jupiter-bound Voyager 1 snapped the first photograph of the Earth-Moon system in a single frame, providing an impression of the view from a spacecraft approaching our home planet. The Galileo spacecraft did exactly that – on Dec. 8, 1990, more than two years after its launch, it passed within 600 miles of Earth, using the planet for a gravity assist to reach Jupiter. During the fly-by, Galileo used its sophisticated instruments and cameras to study Earth as an unexplored planet and detected chemical signatures in atmospheric trace elements associated with life-form activity. 

Voyager 1’s family portrait of six planets, when the spacecraft was 3.7 billion miles from Earth in 1990
Voyager 1’s family portrait of six planets, when the spacecraft was 3.7 billion miles from Earth in 1990.

Pale Blue Dot Revisited, NASA’s 2020 remastered version of the Voyager 1 image of Earth
Pale Blue Dot Revisited, NASA’s 2020 remastered version of the Voyager 1 image of Earth.

On Feb. 14, 1990, more than 12 years after it began its journey from Earth and shortly before controller permanently turned off its cameras to conserve power, Voyager 1 spun around and pointed them back into the solar system. In a mosaic of 60 images, it captured a “family portrait” of six of the solar system’s planets, including a pale blue dot called Earth more than 3.7 billion miles away. In February 2020, to commemorate the photograph’s 30th anniversary, NASA released a remastered version of the image of Earth as Pale Blue Dot Revisited.

MESSENGER’s family portrait of the planets, taken from approximately the orbit of Mercury in 2010
MESSENGER’s family portrait of the planets, taken from approximately the orbit of Mercury in 2010.

Twenty years later, and from a very different part of the solar system, came another family portrait of the planets. From near the orbit of Mercury, the MESSENGER spacecraft took 34 images on Nov. 3 and 16, 2010, that engineers stitched together. The composite shows six planets, Venus, Earth, Jupiter, Mars, Mercury, and Saturn, and even several planetary satellites including the Moon and Jupiter’s four Galilean moons Callisto, Ganymede, Europa, and Io.

Earth and Moon photographed by the Mars Global Surveyor spacecraft in orbit around Mars in 2003 Earth and Moon photographed by the European Space Agency’s Mars Express spacecraft in orbit around Mars in 2003 Earth and Moon photographed by the Mars Reconnaissance Orbiter in orbit around Mars in 2007
Left: Earth and Moon photographed by the Mars Global Surveyor spacecraft in orbit around Mars in 2003. Middle: Earth and Moon photographed by the European Space Agency’s Mars Express spacecraft in orbit around Mars in 2003. Right: Earth and Moon photographed by the Mars Reconnaissance Orbiter in orbit around Mars in 2007.

Even before Spirit returned the first photo of Earth from the surface of Mars, spacecraft in orbit around the Red Planet took amazing photos of the Earth-Moon system with their telescopic high-resolution cameras. Mars Global Surveyor took the first photograph of the Earth-Moon system from Mars orbit in May 2003, the two planets 86 million miles apart. Given the Moon’s position in its orbit around Earth, the two bodies appeared close together. Two months later, in July 2003, the European Space Agency’s (ESA) Mars Express spacecraft photographed them appearing much further apart, given the Moon’s orbital position. In October 2007, Mars Reconnaissance Orbiter used its HiRISE camera to take a more detailed shot of the Earth-Moon system. Because Earth orbits closer to the Sun than Mars, it goes through phases, much as Mercury and Venus do as viewed from Earth.

The Earth-Moon system as seen from the Cassini spacecraft in orbit around Saturn in 2013
The Earth-Moon system as seen from the Cassini spacecraft in orbit around Saturn in 2013.

On July 19, 2013, the Cassini spacecraft in orbit around Saturn took a series of images from a distance of about 750,000 miles as the planet eclipsed the Sun. In the event dubbed The Day the Earth Smiled, people on Earth received notification in advance that Cassini would be taking their picture from 900 million miles away, and were encouraged to smile at its camera. In addition to the Earth and Moon, Cassini captured Venus, Mars, and seven of Saturn’s satellites in the photograph.

The MESSENGER spacecraft in orbit around Mercury took this photograph of Earth and Moon in 2013 The Parker Solar Probe photographed Earth through the solar corona from well inside the orbit of Mercury in 2023
Left: The MESSENGER spacecraft in orbit around Mercury took this photograph of Earth and Moon in 2013. Right: The Parker Solar Probe photographed Earth through the solar corona from well inside the orbit of Mercury in 2023.

On the same day that Cassini imaged Earth and other planets from Saturn, the MESSENGER spacecraft in orbit around Mercury, during a search for possible moons orbiting the small planet, took a photograph of the Earth-Moon system from 61 million miles away. The Parker Solar Probe, during its 16th close pass of the Sun in June 2023, took a series of photographs through the Sun’s corona, imaging several planets including Earth in the process. Engineers stitched the images together to create an amazing video of the solar corona and a coronal mass ejection. The view is from well inside Mercury’s orbit.

The European Space Agency’s Solar Orbiter took this mini-family portrait in November 2020
The European Space Agency’s Solar Orbiter took this mini-family portrait in November 2020.

The ESA Solar Orbiter spacecraft’s primary objectives focus on studying the Sun from close distances. These orbits enable it to photograph several planets at once. On Nov. 18, 2020, Solar Orbiter imaged Venus, Earth, and Mars in one frame.

We hope you enjoyed this review of how photographs of Earth over the past 80 years have changed our perspectives of our home planet, and also of our own place in the universe. Future human space explorers, whatever their destinations, will always look back and try to find their home planet in whatever sky it may shine, and hopefully share their experiences with us through photographs we can only dream about today.

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Kelli Mars

Discovery Alert: a Long Year for a ‘Cold Saturn’

Discovery Alert: a Long Year for a ‘Cold Saturn’

3 min read

Discovery Alert: a Long Year for a ‘Cold Saturn’

Illustration shows the upper two-thirds of a gas-giant planet, TOI-4600 c, that is similar to Saturn (minus the rings). Cloud bands alternate between light tan, yellow, and darker yellow verging on green.
Illustration of the possible appearance of TOI-4600 c, a “cold Saturn.”
NASA/JPL-Caltech

The Discovery

Two giant planets comparable to our own system’s Saturn orbit a star not unlike our Sun some 700 light-years away. The outer planet has the longest year – 483 days – of any found so far by NASA’s TESS (the Transiting Exoplanet Survey Satellite). It’s also among the coldest.

Key Facts

The two planets, TOI-4600 b and c, could prove important to astronomers who investigate how large, gaseous planets form and evolve. And they begin to fill a gap in knowledge between gas giants like Jupiter and Saturn in our solar system, and “hot Jupiters” (as well as “warm Jupiters”) elsewhere in our galaxy.

Details

The decades-long hunt for exoplanets – planets around other stars – has so far yielded more than 5,500 that are confirmed to be scattered across the Milky Way, which likely contains hundreds of billions. But the prevailing detection method turns up relatively few “long period” planets, those with years lasting 50 days or more. This method, seeking “shadows,” much more easily reveals planets orbiting their stars closely, with far shorter years. The search for shadows, called the transit method, captures the tiny dip in starlight as an orbiting planet crosses the face of its star.

Spaceborne telescopes like TESS that rely on this method are responsible for the vast majority of exoplanet detections. But the longer a planet’s orbit, the harder it is for TESS to catch it transiting its star. Still, in a study published in September 2023, an international team of scientists using TESS data determined that TOI-4600 b and c have long-period orbits: 83 days for planet b, 483 for planet c (a year that’s a bit longer than Earth’s).

These orbits might not sound very impressive compared to the gas giants in our solar system. For Jupiter, one trip around the Sun takes 12 years; a “year” on Saturn equals more than 29 years on Earth. But because fewer long-period exoplanets transiting their stars have been detected, TOI-4600 b and c could prove to be a gold mine of data. While space telescopes have been able to measure some atmospheric components of hot and warm Jupiters, TOI-4600 b and c offer the rarer prospect of revealing atmospheric ingredients of “temperate” gas giants – those without scorching atmospheres.

Fun Facts

“Temperate” is, of course, a relative term. If you’re looking for vacation spots, it’s best to leave these two planets off the list. TOI-4600 b, a bit smaller than Saturn at nearly seven times the width of Earth, has an estimated atmospheric temperature of 165 degrees Fahrenheit (74 Celsius). Planet c, about the size of Saturn at more than nine times the width of Earth, has an estimated temperature of minus 116 Fahrenheit (minus 82 Celsius). That’s among the coldest exoplanets TESS has discovered so far.

The Discoverers

An international team led by astronomer Ismael Mireles of the University of New Mexico published their paper on the two planets, “TOI-4600 b and c: Two Long-period Giant Planets Orbiting an Early K Dwarf,” in “The Astrophysical Journal Letters” in September 2023.

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