New Horizons, Astronomy, and the Gift of Knowledge

Science: It’s How We Learn about the Universe

In this animated GIF of Kuiper Belt object Ultima Thule made from two images taken 38 minutes apart, the “Thule” lobe is closest to the New Horizons spacecraft. As Ultima Thule is seen to rotate, hints of the topography can be perceived. The images were taken by the Long-Range Reconnaissance Imager (LORRI) at 4:23 and 5:01 Universal Time on January 1, 2019 from respective ranges of 38,000 miles (61,000 kilometers) and 17,000 miles (28,000 kilometers), with respective original scales of 1017 feet (310 meters) and 459 feet (140 meters) per pixel.
Credit: NASA/Johns Hopkins University Applied Physics Laboratory/Southwest Research Institute

The last weekend of 2018 and the first day of the new year brought us some of the most amazing gifts of science in the form of images and data from the New Horizons team as their spacecraft flew past Ultima Thule (2014 MU69). I say these are gifts because what else do you call it when a group of people dedicates their careers and intellects to showing us a tiny world at the edges of the solar system? It is a wonderful thing they gave us: precision measurements, precision flight, and spot-on analysis of what their spacecraft saw and measured. And, they gave it to the world. They handed us knowledge, pure and simple, at a time when scientific knowledge is being dumped on by people who only understand ignorance and fear.

Humans owe our New Horizons team members from around the world a debt of gratitude for the wonders they showed us. Will we give it? I hope so. If you haven’t yet checked out the New Horizons website, look at it periodically. Starting in about a week, as soon as the spacecraft moves out of occultation with the Sun, more data will be streaming down. I’ve been told the highest-resolution images will be headed down within a few weeks.

AAS and Shutdowns

This week, I’m at the American Astronomical Society meeting in Seattle, Washington. There are probably a couple of thousand astronomers here. Unfortunately, many of our most accomplished colleagues are forbidden to be here. They are shut out of their life’s work by a silly government shutdown over a wall our nation doesn’t need and can’t afford. It’s a waste of human talent, made all the worse by the fact that these people (and all government employees) are being forced to live without pay for their work. The effects of the shutdown on people’s jobs and lives are a lousy testament to the shortsighted stupidity of a political party that also denigrates science and knowledge.

Still, science moves on, and we are hearing about very cool things at this meeting. The empty chairs that would have been filled with our NASA colleagues are sad and waiting. And, perhaps the next meeting, we’ll have them back in their rightful places, sharing the science we as taxpayers have funded and want them to do on our behalf.

Astro News

hst image
The powerful wind from the newly formed star at the heart of the Orion Nebula preventing new stars from forming. It created a bubble (black).  At the same time, the wind is pushing molecular gas (color) to the edges. That formed a dense shell around the bubble where future generations of stars can form. Image credits: NASA/SOFIA/Pabst et. al

So, what are hearing about at this meeting? Today, it was exoplanets (with the TESS mission) and also a look at activity in the Orion Nebula, a nearby star formation region. The main story is here, but the gist of it is that the stellar winds flowing off of a newborn star are actually having an effect on nearby clouds of gas and dust. The result is that new stars aren’t forming. This image shows a region nicknamed “The Dragon’s Heart.”

Astronomers ask why star birth can be stopped in its tracks. One idea is that nearby supernova explosions can “quench” star formation. Now, it appears that young stars themselves can stop the births of their siblings, too.

This finding comes from observations by the SOFIA flying observatory. (We were supposed to see this observatory here. However, the shutdown prevented this highly useful observatory from flying here.)

Galaxies and Hubble

Of course, it wouldn’t be an AAS meeting without a Hubble Space Telescope image. This year, it’s the Triangulum Galaxy and we’ll hear more about the science being done on it tomorrow. But, for now, here’s a sneak preview. This gorgeous view comprises 54 Hubble fields that cover an area of sky 19,000 light-years across.

hst image

The image shows the light of nearly 25 million individually resolved stars. It is the largest high-resolution mosaic image of Triangulum ever assembled. You can go over to the site above and explore it in high detail!

This galaxy is a smaller member of the Local Group of galaxies. Since we can see it “face on”, it gives astronomers a good look at spiral galaxy structure. Interestingly, there’s a lot of star formation going on in Triangulum. It turns out to be about 10 times more intense than in the comparable Hubble panorama of the neighboring Andromeda galaxy. There’s a lot to study in this image. I wouldn’t be surprised to see more cool announcements about the mechanics of this galaxy in the years to come. For example, astronomers have a lot to dig into with the galaxy’s spirals and dust lanes. They may learn that this galaxy hasn’t interacted as intensely with its neighbors as others have done. So, stay tuned on this one!

More to Come

The meeting here goes on until Thursday night. There are more sessions on exoplanets, galaxy formation, gravitational waves and other hot topics in the cosmos. It is an exciting time to learn about astronomy!

New Horizons Completes a Successful Flyby

Outbound from Ultima Thule

This morning we all gathered at the Johns Hopkins Applied Physics Lab to see the last pre-flyby image of Ultima Thule that got sent down overnight. You can see it here, along with a graphic indicating the rotational axis and probable shape of this little Kuiper Belt Object.

A composite of two images taken by New Horizons’ high-resolution Long-Range Reconnaissance Imager (LORRI), which provides the best indication of Ultima Thule’s size and shape so far. Preliminary measurements of this Kuiper Belt object suggest it is approximately 20 miles long by 10 miles wide (32 kilometers by 16 kilometers). An artist’s impression at right illustrates one possible appearance of Ultima Thule, based on the actual image at left. The direction of Ultima’s spin axis is indicated by the arrows.
Credit: NASA/JHUAPL/SwRI; sketch courtesy of James Tuttle Keane

As I write this, the New Horizons flyby sequences of images are on their way to Earth. We will likely see the best one at the press conference on Wednesday. From there on out, the images and data will get better. There is a short-term delay in transmissions over next weekend. That’s because the spacecraft will be occulted by the Sun. However, the data recorders on New Horizons are full, and after the occultation, it’ll resume sending that information back to Earth for admiration and analysis.

Info from the Outer Solar System

This is the second major flyby in the Kuiper Belt for New Horizons. The first, as everyone remembers, was at Pluto. That’s a much bigger world than Ultima Thule, which is a few dozen kilometers long at most. Yet, size isn’t the big deal here. Or, rather, it is. That’s because little worlds the size of Ultima Thule hold the key to understanding the early objects that made up our solar system. Ultima has some of the most pristine materials known. They are in nearly the same shape as when they were born, at least 4.5 billion years ago.

Looking at these places helps us fill in gaps in our knowledge about the formation of the solar system. And, there’s a lot we don’t know about the primordial materials that existed in the solar nebula that existed before the Sun and planets began to form.

So, studies of Ultima Thule, missions to such places as asteroid Bennu and to comets, are all of a piece: they are aimed at showing us the “birth room pictures” of the solar system. That’s why it’s important to get up-close and personal with these objects. It’s why NASA has devoted time, attention, and money to the study of small bodies in the solar system. We may live on one of the bigger bodies, but we have to understand how it got that way. Where it came from, how it evolved? That’s another thing that Ultima can help us understand.

More to Come

There will be more data and images from Ultima Thule over the next year or so. Pay attention, because it’s like looking at baby pictures of ourselves when we were very young. Tiny Ultima (officially known as 2014 MU69) has a LOT to tell us.

#NewHorizons, #UltimaThule, #UltimaFlyby

Exploring Science and the Cosmos

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