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Hubble Space Telescope Deep Sky Survey Finds Huge Numbers of Irregular and Peculiar Galaxies
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By Space Force
At this week's annual Air, Space and Cyber Conference, the command responsible for training and readiness in the Space Force emphasized Guardian development, connection and family readiness across three key panel discussions.
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By NASA
ESA/Hubble & NASA, M. Koss, A, Barth This NASA/ESA Hubble Space Telescope image features the spiral galaxy IC 4709 located around 240 million light-years away in the southern constellation Telescopium. Hubble beautifully captures its faint halo and swirling disk filled with stars and dust bands. The compact region at its core might be the most remarkable sight. It holds an active galactic nucleus (AGN).
If IC 4709’s core just held stars, it wouldn’t be nearly as bright. Instead, it hosts a gargantuan black hole, 65 million times more massive than our Sun. A disk of gas spirals around and eventually into this black hole, crashing together and heating up as it spins. It reaches such high temperatures that it emits vast quantities of electromagnetic radiation, from infrared to visible to ultraviolet light and X-rays. A lane of dark dust, just visible at the center of the galaxy in the image above, obscures the AGN in IC 4709. The dust lane blocks any visible light emission from the nucleus itself. Hubble’s spectacular resolution, however, gives astronomers a detailed view of the interaction between the quite small AGN and its host galaxy. This is essential to understanding supermassive black holes in galaxies much more distant than IC 4709, where resolving such fine details is not possible.
This image incorporates data from two Hubble surveys of nearby AGNs originally identified by NASA’s Swift telescope. There are plans for Swift to collect new data on these galaxies. Swift houses three multiwavelength telescopes, collecting data in visible, ultraviolet, X-ray, and gamma-ray light. Its X-ray component will allow SWIFT to directly see the X-rays from IC 4709’s AGN breaking through the obscuring dust. ESA’s Euclid telescope — currently surveying the dark universe in optical and infrared light — will also image IC 4709 and other local AGNs. Their data, along with Hubble’s, provides astronomers with complementary views across the electromagnetic spectrum. Such views are key to fully research and better understand black holes and their influence on their host galaxies.
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By NASA
5 Min Read Reinventing the Clock: NASA’s New Tech for Space Timekeeping
The Optical Atomic Strontium Ion Clock is a higher-precision atomic clock that is small enough to fit on a spacecraft. Credits: NASA/Matthew Kaufman Here on Earth, it might not matter if your wristwatch runs a few seconds slow. But crucial spacecraft functions need accuracy down to one billionth of a second or less. Navigating with GPS, for example, relies on precise timing signals from satellites to pinpoint locations. Three teams at NASA’s Goddard Space Flight Center in Greenbelt, Maryland, are at work to push timekeeping for space exploration to new levels of precision.
One team develops highly precise quantum clock synchronization techniques to aid essential spacecraft communication and navigation. Another Goddard team is working to employ the technique of clock synchronization in space-based platforms to enable telescopes to function as one enormous observatory. The third team is developing an atomic clock for spacecraft based on strontium, a metallic chemical element, to enable scientific observations not possible with current technology. The need for increasingly accurate timekeeping is why these teams at NASA Goddard, supported by the center’s Internal Research and Development program, hone clock precision and synchronization with innovative technologies like quantum and optical communications.
Syncing Up Across the Solar System
“Society requires clock synchronization for many crucial functions like power grid management, stock market openings, financial transactions, and much more,” said Alejandro Rodriguez Perez, a NASA Goddard researcher. “NASA uses clock synchronization to determine the position of spacecraft and set navigation parameters.”
If you line up two clocks and sync them together, you might expect that they will tick at the same rate forever. In reality, the more time passes, the more out of sync the clocks become, especially if those clocks are on spacecraft traveling at tens of thousands of miles per hour. Rodriguez Perez seeks to develop a new way of precisely synchronizing such clocks and keeping them synced using quantum technology.
Work on the quantum clock synchronization protocol takes place in this lab at NASA’s Goddard Space Flight Center in Greenbelt, Md.NASA/Matthew Kaufman In quantum physics, two particles are entangled when they behave like a single object and occupy two states at once. For clocks, applying quantum protocols to entangled photons could allow for a precise and secure way to sync clocks across long distances.
The heart of the synchronization protocol is called spontaneous parametric down conversion, which is when one photon breaks apart and two new photons form. Two detectors will each analyze when the new photons appear, and the devices will apply mathematical functions to determine the offset in time between the two photons, thus synchronizing the clocks.
While clock synchronization is currently done using GPS, this protocol could make it possible to precisely synchronize clocks in places where GPS access is limited, like the Moon or deep space.
Syncing Clocks, Linking Telescopes to See More than Ever Before
When it comes to astronomy, the usual rule of thumb is the bigger the telescope, the better its imagery.
“If we could hypothetically have a telescope as big as Earth, we would have incredibly high-resolution images of space, but that’s obviously not practical,” said Guan Yang, an optical physicist at NASA Goddard. “What we can do, however, is have multiple telescopes in various locations and have each telescope record the signal with high time precision. Then we can stich their observations together and produce an ultra-high-res image.”
The idea of linking together the observations of a network of smaller telescopes to affect the power of a larger one is called very long baseline interferometry, or VLBI.
For VLBI to produce a whole greater than the sum of its parts, the telescopes need high-precision clocks. The telescopes record data alongside timestamps of when the data was recorded. High-powered computers assemble all the data together into one complete observation with greater detail than any one of the telescopes could achieve on its own. This technique is what allowed the Event Horizon Telescope’s network of observatories to produce the first image of a black hole at the center of our galaxy.
The Event Horizon Telescope (EHT) — a planet-scale array of eight ground-based radio telescopes forged through international collaboration — was designed to capture images of a black hole. Although the telescopes making up the EHT are not physically connected, they are able to synchronize their recorded data with atomic clocks.EHT Collaboration Yang’s team is developing a clock technology that could be useful for missions looking to take the technique from Earth into space which could unlock many more discoveries.
An Optical Atomic Clock Built for Space Travel
Spacecraft navigation systems currently rely on onboard atomic clocks to obtain the most accurate time possible. Holly Leopardi, a physicist at NASA Goddard, is researching optical atomic clocks, a more precise type of atomic clock.
While optical atomic clocks exist in laboratory settings, Leopardi and her team seek to develop a spacecraft-ready version that will provide more precision.
The team works on OASIC, which stands for Optical Atomic Strontium Ion Clock. While current spacecraft utilize microwave frequencies, OASIC uses optical frequencies.
The Optical Atomic Strontium Ion Clock is a higher-precision atomic clock that is small enough to fit on a spacecraft.NASA/Matthew Kaufman “Optical frequencies oscillate much faster than microwave frequencies, so we can have a much finer resolution of counts and more precise timekeeping,” Leopardi said.
The OASIC technology is about 100 times more precise than the previous state-of-the-art in spacecraft atomic clocks. The enhanced accuracy could enable new types of science that were not previously possible.
“When you use these ultra-high precision clocks, you can start looking at the fundamental physics changes that occur in space,” Leopardi said, “and that can help us better understand the mechanisms of our universe.”
The timekeeping technologies unlocked by these teams, could enable new discoveries in our solar system and beyond.
More on cutting-edge technology development at NASA Goddard By Matthew Kaufman, with additional contributions from Avery Truman
NASA’s Goddard Space Flight Center, Greenbelt, Md.
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Last Updated Sep 18, 2024 EditorRob GarnerContactRob Garnerrob.garner@nasa.govLocationGoddard Space Flight Center Related Terms
Goddard Technology Communicating and Navigating with Missions Goddard Space Flight Center Technology View the full article
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By NASA
This enormous piece of space hardware is NASA’s Nancy Grace Roman Space Telescope’s spacecraft bus, which will maneuver the observatory to its place in space and enable it to function while there. It is photographed here in the largest clean room at NASA’s Goddard Space Flight Center, where engineers are inspecting it upon delivery. The bus rests atop an aluminum ring that will temporarily protect its underside. The two copper-colored flaps are Roman’s Lower Instrument Sun Shade –– deployable panels designed to help shield the observatory from sunlight.NASA/Chris Gunn The spacecraft bus that will deliver NASA’s Nancy Grace Roman Space Telescope to its orbit and enable it to function once there is now complete after years of construction, installation, and testing.
Now that the spacecraft is assembled, engineers will begin working to integrate the observatory’s other major components, including the science instruments and the telescope itself.
“They call it a spacecraft bus for a reason — it gets the telescope to where it needs to be in space,” said Jackie Townsend, the Roman deputy project manager at NASA’s Goddard Space Flight Center in Greenbelt, Maryland. “But it’s really more like an RV because it has a whole assortment of functions that enable Roman to accomplish its scientific goals while out there too.”
Those goals include surveying wide swaths of the universe to study things like: dark energy, a mysterious cosmic pressure thought to accelerate the universe’s expansion; dark matter, invisible matter seen only via its gravitational influence; and exoplanets, worlds beyond our solar system.
The mission’s science wouldn’t be possible without a spacecraft to transport the telescope, point the observatory toward different cosmic targets, provide power, communicate with Earth, control and store instrument data, and regulate Roman’s temperature. Nearly 50 miles of electrical cabling are laced throughout the assembly to enable different parts of the observatory to communicate with each other.
The spacecraft will also deploy several major elements that will be stowed for launch, including the solar panels, deployable aperture cover, lower instrument Sun shade, and high-gain antenna. It’s also responsible for collecting and beaming down data, which is no small task for a space observatory that will survey the cosmos like Roman will.
“Roman will send back 1.4 terabytes of data per day, compared to about 50 to 60 gigabytes from the James Webb Space Telescope and three gigabytes from the Hubble Space Telescope,” said Jason Hylan, the Roman observatory manager at NASA Goddard. “Webb’s daily downlink is roughly comparable to 13 hours of YouTube video at the highest quality while Roman’s would amount to about 2 weeks.”
This top-down view shows NASA’s Nancy Grace Roman Space Telescope’s spacecraft bus from another angle. It rests atop an aluminum ring that will not be part of the observatory and is surrounded by an enclosure used in testing to ensure electromagnetic interference will not affect the bus’s sensitive electronics. The bus is covered in gray bagging material to prevent contamination –– even tiny stray particles could affect its performance.NASA/Chris Gunn A Goddard Grand Slam
This milestone is the culmination of eight years of spacecraft design work, building, and testing by hundreds of people at Goddard.
“Goddard employees were the brains, designers, and executors. And they worked with vendors who supplied all the right parts,” Townsend said. “We leaned on generations of expertise in the spacecraft arena to work around cost and schedule challenges that arose from supply chain issues and the pandemic.”
One time- and money-saving technique the team came up with was building a spacecraft mockup, called the structural verification unit. That allowed them to do two things at once: complete strength testing on the mockup, designed specifically for that purpose, while also assembling the actual spacecraft.
The spacecraft’s clever layout also allowed the team to adapt to changing schedules. It’s designed to be modular, “more like Trivial Pursuit pie pieces than a nesting egg, where interior components are buried inside,” Townsend said. “That’s been a game-changer because you can’t always count on things arriving in the order you planned or working perfectly right away with no tweaks.” It also increased efficiency because people could work on different portions of the bus at the same time without interfering with each other.
The slightly asymmetrical and hexagonal spacecraft bus is about 13 feet (4 meters) wide by 6.5 feet (2 meters) tall and weighs in at 8,400 pounds (3,800 kilograms).
While it may look small in this photo, the spacecraft bus for NASA’s Nancy Grace Roman Space Telescope is 8 feet (2.5 meters) wide by 6.5 feet (2 meters) tall and weighs in at 8,400 pounds (3,800 kilograms). In this photo, it rests atop an aluminum ring that will not be part of the observatory. The bundles of wires on top are part of more than 50 miles of cabling laced throughout the assembly to enable different parts of the observatory to communicate with each other.NASA/Chris Gunn One reason it doesn’t weigh more is that some components have been partially hollowed out. If you could peel back some of the spacecraft’s panels, you’d find superthin metallic honeycomb sandwiched between two slim layers of metal. And many of the components, such as the antenna dish, are made of strong yet lightweight composite materials.
When the spacecraft bus was fully assembled, engineers conducted a comprehensive performance test. Prior to this, each component had been tested individually, but just like with a sports team, the whole unit has to perform well together.
“The spacecraft passed the test, and now we’re getting ready to install the payload –– Roman’s instruments and the telescope itself,” said Missie Vess, a spacecraft systems engineer for Roman at NASA Goddard. “Next year, we’ll test these systems together and begin integrating the final components of the observatory, including the deployable aperture cover, outer barrel assembly, and solar panels. Then we’ll finally have ourselves a complete observatory, on track for launch by May 2027.”
To virtually tour an interactive version of the telescope, visit:
https://roman.gsfc.nasa.gov/interactive
The Nancy Grace Roman Space Telescope is managed at NASA’s Goddard Space Flight Center in Greenbelt, Maryland, with participation by NASA’s Jet Propulsion Laboratory and Caltech/IPAC in Southern California, the Space Telescope Science Institute in Baltimore, and a science team comprising scientists from various research institutions. The primary industrial partners are BAE Systems, Inc in Boulder, Colorado; L3Harris Technologies in Rochester, New York; and Teledyne Scientific & Imaging in Thousand Oaks, California.
By Ashley Balzer
NASA’s Goddard Space Flight Center, Greenbelt, Md.
Media Contact:
Claire Andreoli
claire.andreoli@nasa.gov
NASA’s Goddard Space Flight Center, Greenbelt, Md.
301-286-1940
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Last Updated Sep 17, 2024 EditorAshley BalzerContactAshley Balzerashley.m.balzer@nasa.govLocationGoddard Space Flight Center Related Terms
Nancy Grace Roman Space Telescope Communicating and Navigating with Missions Dark Energy Dark Matter Exoplanets Goddard Space Flight Center Goddard Technology Space Communications Technology Technology The Universe View the full article
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By NASA
News Chief Rob Garner shares NASA Goddard’s story with the public, supporting writers and creators in the Office of Communications.
Name: Rob Garner
Title: News Chief
Formal Job Classification: Senior public affairs specialist
Organization: Office of Communications (Code 130)
Rob Garner has worked in the Office of Communications at NASA’s Goddard Space Flight Center in Greenbelt, Md., since 2007.NASA/Jamie Adkins What do you do and what is most interesting about your role here at Goddard?
I am responsible for helping take the great work going on at our center and sharing it with as many people as we can. My job is sort of like being an editor in chief. I try to set the tone for our storytelling and manage our publication schedule. Mostly I try to give our writers and other communicators the support they need to do their jobs — and then I try to get out of their way so they can do what they do best.
What is your educational background?
I have a B.A. in journalism from the University of Maryland, College Park, with a minor in astronomy, as well as a Master of Library Science degree focusing on archives, also from UMD.
Why did you want to be a journalist?
I sort of fell into the work that I am doing. In high school, I thought I would be a band director. I realized very quickly after high school that my enthusiasm for music did not align with my proficiency in it. Music remains an important hobby, but I needed to make a living doing something else.
I did not really enjoy writing until I got to college and had the opportunity to experience journalism. Tight writing, going straight to the source to get answers, accurate researching, it all appealed to me. I think journalism as a profession plays a critical role in ensuring an informed and functional society.
How did you come to work for Goddard?
After I graduated college, I worked weekends for a few months on the digital desk at WTOP radio, editing copy and updating their website. I was still looking for a fulltime gig, and I happened upon a newspaper classified for a position at Goddard. It called for a little bit of newswriting, a little bit of web editing, a little bit of science. Until that moment, I never imagined NASA could have a place for someone like me.
Goddard offered me a one-year fellowship in the Office of Communication (back then called Public Affairs) to do website editing for our Earth science team. The fellowship was renewed a few times, and eventually I became a general web editor, then also a social media editor, and eventually leader of the digital media team. In 2022, I became the news chief.
As news chief, what is your vision?
I take very seriously the part of NASA’s 1958 charter that charges the agency not just with conducting cutting-edge research, but also with sharing our work with the broadest possible audience. We must also drive home why what we do matters. The first thing I look for when reviewing copy is how well the piece addresses the “why.”
What makes a good science communicator?
Goddard has some 10,000 people, mostly researchers and engineers. Here, a successful science communicator is one who develops relationships among these different people and a deep understanding of their many projects. As communicators, we cannot do our jobs if we do not also have the trust of the people actually doing the science.
As a mentor, what is the one big piece of advice you give?
I tell our interns to jump in with both feet. So much of what we do and what we know cannot be found in any handbook or manual. So much of it is the institutional knowledge that each of us carries based on our own experiences.
Grab hold of the people who have the experience and take in as much as you can from them. Immersing in and embracing that Goddard culture is what will set apart a good colleague from a great one.
Everyone in the newsroom here knows that you are quite fond of the Associated Press (AP) Stylebook and the NASA Stylebook and Communications Manual. Can you please explain what they and why you are so fond of them?
One can think of AP style as an appendix or addendum to the dictionary, and the NASA style manual as an appendix or addendum to AP. The aim in having all of these mechanics standardized is to make it easier for the reader to read what you are writing. Even if one doesn’t know the rules governing serial comma usage, most of us can tell when what we’re reading is sloppy. Any time you force the reader to pause and review, there is a chance you will lose them. They may tune out and take their attention elsewhere.
These manuals lay out more than the mechanics of which states get abbreviated in what way, when to use semicolons, and when to use em dashes. They also give us guidelines about how to do our jobs, covering things like ethics, chain of command, and conflict resolution.
What do you enjoy best about your job?
My job is not just editing copy, fielding questions from reporters, or escorting groups for tours or documentary filming. I do enjoy all of that, but what I like most is that every day is different, and every day I learn something new. I love the variety of tasks and tactics that we use get our message out to the world. NASA plays a critical role in benefitting all of humanity by broadening our knowledge about the universe and our place in it. It’s personally very meaningful to me to have even a small role in that mission. And I enjoy working with a really great group of people.
You said in high school you thought you would become a band director. Have you kept up with playing?
In my free time, I do still play trumpet. For almost 20 years, I have played in community orchestras that draw repertoire from video game soundtracks. The past 10 years, I’ve been with the Washington Metropolitan Gamer Symphony Orchestra (WMGSO), along with my wife, who plays the violin. This group — well over 100 of us — originated when we were all in college, and we have continued together since then. What makes our group special is that we still do a lot of the orchestration ourselves, meaning that you cannot hear our music anywhere else. We meet once a week and perform three or four times a year throughout the D.C. area. We even have an album out, with another on the way soon.
Can you please tell us about your dog rescue volunteer work?
Since 2018, my wife and I have been involved with a couple area animal rescues. We typically take in newly weaned puppies and keep them for the weeks or months it takes for them to find their forever homes. While they are in our care, we keep them safe, fed, warm, and loved. We also socialize them as much as possible. The organizations take care of finding them homes through weekly adoption events.
My wife and I have three dogs of our own, two of which are rescues from this group. We have fostered hundreds over the years. I lost count somewhere north of 250 — and counting. I think it is important for everyone to find a way to make the world a better place. This is our way of doing that.
Garner and then-Goddard News Chief Ed Campion celebrating the latter’s retirement in 2018. Aloha shirt Fridays were a mainstay of Campion’s tenure.NASA/Bill Hrybyk Who would you like to thank for helping you?
That’s a long list! I’m forever grateful to Goddard’s executive producer, Wade Sisler, who saw something in babyface Rob Garner, nearly fresh out of school, and gave me a chance at a toehold in NASA.
I definitely want to thank Ed Campion, our retired former news chief and “minister of truth,” for all he did for me. When I first got to Goddard in 2007, Ed was one of the first people to take me under his wing and teach me about Goddard and NASA culture. Ed came through the agency during some very hard times, both shuttle accidents, and some very important highs, like the successful Hubble telescope repair missions. He worked at NASA Headquarters in Washington and also at Johnson Space Center in Houston. I learned a lot about how to do this job, and how to treat your teammates, from him.
I also want to thank my wife Katie. She’s challenged me and encouraged me to grow into a better person. Raising a family together has been a wild ride, and it’s only just getting started.
What is your “six-word memoir”? A six-word memoir describes something in just six words.
“Omit needless words. Assume positive intent.”
The first half was the rule hammered into us in journalism school. The second half is the mantra I learned from Michelle Jones, former head of Goddard communications, about treating others with kindness and compassion. Michelle — now the deputy associate administrator for communications at NASA — is another mentor I could never thank enough for helping me get where I am.
By Elizabeth M. Jarrell
NASA’s Goddard Space Flight Center, Greenbelt, Md.
Conversations With Goddard is a collection of Q&A profiles highlighting the breadth and depth of NASA’s Goddard Space Flight Center’s talented and diverse workforce. The Conversations have been published twice a month on average since May 2011. Read past editions on Goddard’s “Our People” webpage.
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Last Updated Sep 16, 2024 EditorMadison OlsonContactJamie Adkinsjamie.l.adkins@nasa.govLocationGoddard Space Flight Center Related Terms
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