Friday, January 25, 2019

NASA’s New Horizons Transmits Sharpest View Yet of Ultima Thule


This image, taken during the historic Jan. 1, 2019 flyby of Ultima Thule  is the clearest view yet of this remarkable, ancient object in the far reaches of the solar system – and the first small KBO ever explored by a spacecraft.  The image was taken when the KBO was 4,200 miles (6,700 kilometers) from the spacecraft at 12:26 a.m. EST on Jan. 1 – just seven minutes before closest approach. Credit: NASA/Johns Hopkins University Applied Physics Laboratory/Southwest Research Institute
Ken Kremer  --SpaceUpClose.com & RocketSTEM –25 January 2019

CAPE CANAVERAL, FL – Scientists are gleeful as NASA’s New Horizons probe has transmitted back her sharpest view yet of distant Ultima Thule lurking more than 4 billion miles (6.6 billion km) from Earth in the far reaches of the Kuiper Belt following the stunning success of the New Years Day flyby.

Ultima Thule – which means ‘beyond the known world’ - ranks as the furthest and coldest object ever explored – a magnificently preserved bi-lobal fossil body formed during the birth of the solar system that looks remarkably like a ‘snowman.  

The newly released image was captured when New Horizons was merely 4,200 miles (6,700 kilometers) distant from the Kuiper Belt Object (KBO) at 12:26 a.m. EST (05:26 UT) on Jan. 1, 2019  – just seven minutes before closest approach. 

The image brings Ultima Thule into truly sharp focus for the first time revealing surface features including a number pits and depressions that certainly resemble craters ranging in size from small to large as well as the one giant pit located on the smaller of the two lobes.

“The wonders – and mysteries – of Kuiper Belt object 2014 MU69 continue to multiply as NASA's New Horizons spacecraft beams home new images of its New Year's Day 2019 flyby target,” according to the mission team in a statement releasing the new image on Jan. 24.

The new image was taken by the wide-angle Multicolor Visible Imaging Camera (MVIC) component of New Horizons' Ralph instrument with a resolution of 440 feet (135 meters) per pixel and stored in the on-board memory. It was beamed back on Jan. 18-19 to eagerly waiting scientists. 

The precious best image was taken by the LORRI imager from approximately 17,000 miles (27,000 kilometers) with a resolution of 0.08 miles (0.14 kilometers) per pixel as New Horizons was approaching at a velocity of 32,000 mph (9 miles per second) – taken about 30 minutes prior to closest approach. It was released at the Jan. 2 press briefing. 
This image taken by the Long-Range Reconnaissance Imager (LORRI) is the most detailed of Ultima Thule returned so far by NASA’s New Horizons spacecraft. It was taken at 5:01 Universal Time on January 1, 2019, just 30 minutes before closest approach from a range of 18,000 miles (28,000 kilometers), with an original scale of 459 feet (140 meters) per pixel. The science team unveiled this image at the Jan 2, media briefing at JHU APL. Credit: Ken Kremer/kenkremer.com/spaceupclose.com
"This new image is starting to reveal differences in the geologic character of the two lobes of Ultima Thule, and is presenting us with new mysteries as well," said Principal Investigator Alan Stern, of the Southwest Research Institute in Boulder, Colorado, in a statement. 

"Over the next month there will be better color and better resolution images that we hope will help unravel the many mysteries of Ultima Thule."

On New Year’s Day 2019 at 12:33 a.m. EST the New Horizons spacecraft flew past Ultima Thule within a distance of merely 2,200 miles (3,500 kilometers) while approaching at a velocity of 32,000 mph (9 miles per second).  

“The object consists of two similarly red, similarly reflective lobes measuring approximately 14 and 19 km across, respectively. Their similar nature points to their individual accretion in a swarm of like objects, followed by a gentle merger. Nothing like this has ever been seen up close and personal before,” Stern wrote in an invited abstract for the Lunar and Planetary Science Conference upcoming in Houston this March.

Watch this recently released rotation movie showing the propeller-like rotation of Ultima Thule in the seven hours between 20:00 UT (3 p.m. ET) on Dec. 31, 2018, and 05:01 UT (12:01 a.m.) on Jan. 1, 2019, as seen by the Long Range Reconnaissance Imager (LORRI) aboard NASA's New Horizons as the spacecraft sped toward its close encounter with the Kuiper Belt object at 05:33 UT (12:33 a.m. ET) on Jan. 1.
This movie shows propeller-like rotation of Ultima Thule in the seven hours between 20:00 UT (3 p.m. ET) on Dec. 31, 2018, and 05:01 UT (12:01 a.m.) on Jan. 1, 2019, as seen by the Long Range Reconnaissance Imager (LORRI) aboard NASA's New Horizons as the spacecraft sped toward its close encounter with the Kuiper Belt object at 05:33 UT (12:33 a.m. ET) on Jan. 1, 2019. Credits: NASA/Johns Hopkins Applied Physics Laboratory/Southwest Research Institute
Ultima Thule has a rotation period of about 16 hours. 

The baby grand piano shaped probe gathered about 50 GB of data including imagery, spectroscopy and research measurements using its 7 on board science instruments. It will take about 20 months for all the data to be beamed back to Earth.

Here is a detailed description of the new MVIC image:

The oblique lighting of this image reveals new topographic details along the day/night boundary, or terminator, near the top. These details include numerous small pits up to about 0.4 miles (0.7 kilometers) in diameter. The large circular feature, about 4 miles (7 kilometers) across, on the smaller of the two lobes, also appears to be a deep depression. Not clear is whether these pits are impact craters or features resulting from other processes, such as "collapse pits" or the ancient venting of volatile materials.

Both lobes also show many intriguing light and dark patterns of unknown origin, which may reveal clues about how this body was assembled during the formation of the solar system 4.5 billion years ago. One of the most striking of these is the bright "collar" separating the two lobes.
Credit: Ken Kremer/kenkremer.com/spaceupclose.com
“Ultima Thule” is an unchanged fossil remnant and planetesimal formed during the dawn of our solar system some 4.5 Billion Years ago.

Planetesimals are the tiny building blocks from which much larger structures like moons and planets are born by accretion of hordes of bits of matter over time.    

The bi-lobal rock is shaped remarkably like a ‘snowman’ and consists of two connected balls roughly spherical in appearance. 

The new world measures 19 miles (31 kilometers) in length. The team has unofficially nicknamed the larger sphere "Ultima" (12 miles/19 kilometers across) and the smaller sphere "Thule" (9 miles/14 kilometers across).

At the moment New Horizons is approximately 4.13 billion miles (6.64 billion kilometers) from Earth, operating normally and speeding away from the Sun (and Ultima Thule) at more than 31,500 miles (50,700 kilometers) per hour. At that distance, a radio signal reaches Earth six hours and nine minutes after leaving the spacecraft.
New Horizons full trajectory and current location.  Credits: NASA/Johns Hopkins Applied Physics Laboratory/Southwest Research Institute
Watch for Ken’s continuing coverage of New Horizons and prior reporting direct from JHU APL.

Watch for Ken’s continuing onsite coverage of NASA, SpaceX, ULA, Boeing, Lockheed Martin, Northrop Grumman and more space and mission reports direct from the Kennedy Space Center, Cape Canaveral Air Force Station, Florida and Wallops Flight Facility, Virginia.

Stay tuned here for Ken's continuing Earth and Planetary science and human spaceflight news: www.kenkremer.com –www.spaceupclose.com – twitter @ken_kremer – email: ken at kenkremer.com

Dr. Kremer is a research scientist, journalist and photographer based in the KSC area.
………….

Ken’s photos are for sale and he is available for lectures and outreach events

No comments:

Post a Comment