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Sunday, December 20, 2020

Neutron Stars

 https://www.thespacereview.com/article/4042/1

Space Entrepreneurs

 https://www.thespacereview.com/article/4043/1

A Critique Of The Series For All Mankind

 https://www.thespacereview.com/article/4044/1

Three NASA Administrators Meet

 https://www.thespacereview.com/article/4045/1

Moving Away Frm The Term Space Salvage

 https://www.thespacereview.com/article/4046/1

George Low-The Ultimate Engineer

 https://www.thespacereview.com/article/4067/1

The Need For US Leadership In Space Debris Removal

 https://www.thespacereview.com/article/4068/1

Lunar Commerce

 https://www.thespacereview.com/article/4069/1

Spooks And Satellites During The Cold War

 https://www.thespacereview.com/article/4070/1

Four Astronauts Fly To The ISS

 https://www.thespacereview.com/article/4071/1

Space Power Ascendent

 https://www.thespacereview.com/article/4072/1

Will Biden Support The Artemis Accords?

 https://www.thespacereview.com/article/4073/1

The Space Resources Debate Shifts From Asteroids To The Moon

 https://www.thespacereview.com/article/4074/1

The Television Series The Right Stuff

 https://www.thespacereview.com/article/4076/1

The Black Hole Survival Guide

 https://www.thespacereview.com/article/4077/1

Chesley Bonestell-The Greatest Space Artist!!!

 https://www.thespacereview.com/article/4078/1

A 4G Network On The Moon Is Bad News For Radio Astronomers

 https://www.thespacereview.com/article/4079/1

The Case For Apophis

 https://www.thespacereview.com/article/4080/1

Soviet-US Cooperatuin During The Apollo Program?

 https://www.thespacereview.com/article/4081/1

Operation Moonglow-Winning Hearts ANd Minds Around The World During The Apollo Program

 https://www.thespacereview.com/article/4082/1

The Art Of NASA

 https://www.thespacereview.com/article/4083/1

The Indian Space Program Learns And Evolves

 https://www.thespacereview.com/article/4084/1

A Technician Error Doomed An Arienne Flight

 https://www.thespacereview.com/article/4085/1

Mars Sample Return-The Future Of Mars Exploration

 https://www.thespacereview.com/article/4086/1

How To Be An Astronaut

 https://www.thespacereview.com/article/4087/1

Learning To Be An Analogue Astronaut

 https://www.thespacereview.com/article/4088/1

Planning For Artemis Moon Landings

 https://www.thespacereview.com/article/4089/1

Starship Contradictions

 https://www.thespacereview.com/article/4090/1

Tracking Soviet Anti Ballistic Missile Satellites in the 1960's

 https://www.thespacereview.com/article/4091/1

'Aliens Exist,' According to Ex-Israeli Space Chief

Tuesday, December 15, 2020

From NASA JPL Mailroom To Mars And Beyond

 

Bill Allen in JPL's Mars Yard in early 2020
Bill Allen in JPL's Mars Yard in early 2020. Image credit: NASA/JPL-Caltech
› Larger view

Bill Allen has thrived as the mechanical systems design lead for three Mars rover missions, but he got his start as a teenager sorting letters for the NASA center.

Don't tell Bill Allen he can't take risks.

Allen was just 17 years old when he first set foot on the grounds of NASA's Jet Propulsion Laboratory to join the mailroom in the summer of 1981. Voyager had recently encountered Saturn, and the Lab was crawling with members of the media.

"It was like walking into a football stadium in the middle of the touchdown. It was electric," he says. "This is something that doesn't go on anywhere else in the world, and to be immersed in it with your first footsteps was crazy. That alone was awe-inspiring."

Cut to 2020, and the veteran mechanical engineer has been with JPL for more than 35 years. As someone who's often tapped to be part of high-stakes problem-solving "tiger teams," he's worked as the systems design lead for the Mars Exploration rovers Spirit and Opportunity, Curiosity, and the soon-to-land Mars Perseverance rover - each mission more challenging than the last.

The size of a small SUV, Curiosity dwarfed Spirit and Opportunity, landing via the mind-boggling "sky crane" maneuver, in which a descent stage lowers the rover onto Mars. With Perseverance, the team had to "grow the rover" more, Allen says, to accommodate a whole new suite of instruments and the intricate system the rover will rely on to take samples from Mars and deposit them in tubes for a future mission to return to Earth.

"We took on the most complicated mission we've ever done while we're changing our infrastructure," he says. "This is like fixing your car while you're driving it."

Mechanical Mindset

While Allen's initiation at JPL may have been dizzying, his high school years were hardly a foreshadowing of the success to come. "The first two years of high school, I was never in the mindset of what I wanted to do," he says.

Allen grew up in West Los Angeles, the middle child of five siblings. His mother was a child development specialist, and his father owned and operated a landscaping business. In his youth, he was "always tinkering with things," Allen says. "I would take apart anything and everything. Whatever my parents gave me, such as bikes, I demolished. I would take it apart, modify it, make it better."

It was only at the end of his junior year that Allen began thinking about life after high school. That's when he decided to study engineering. But there was lost ground to cover. "Most students had already decided," he says. "They had taken much more advanced math and were further along than me, so I took summer classes to catch up."

Allen wound up at JPL only by serendipity. His uncle, who worked at JPL in electronic packaging, saw a job listing for the Lab's mailroom and suggested his nephew apply as a way to earn extra money the summer before college. "I didn't even know what JPL was," Allen says.

Allen with engineering models of the (clockwise from bottom) Sojourner rover, a Mars Exploration Rover, and Curiosity in JPL's Mars Yard in the early 2000's
Allen with engineering models of the (clockwise from bottom) Sojourner rover, a Mars Exploration Rover, and Curiosity in JPL's Mars Yard in the early 2000's. Image Credit: NASA/Caltech-JPL
› Larger view

Challenges Accepted

But he was a quick learner. Early in the mornings, he would sort the mail, then jump into the mailroom's Jeep and deliver throughout the day on JPL's sprawling grounds. (This was before the days of email and there was, he says, a lot of mail.) That was all he needed: "When I saw what was going on here that first summer, I wanted to come back."

That fall, Allen left to study engineering physics at Oregon State University, but he landed a spot two years later in a new program at JPL: a six-month co-op - similar to today's internship program - with 20 other students. "It was quite frankly amazing," he says of the experience. "We were treated like assets."

The co-op included weekly field trips, such as visits to Edwards Air Force Base to watch shuttle launches, booster tests, and experimental crash landings. It wasn't unusual for an astronaut or lead scientist to drop in for a talk with the students.

Students were also assigned hands-on tasks that were integral to the flight hardware and that spurred creative thinking. Allen helped to redesign Galileo's mounting for its star scanner, which uses the position of stars to help the spacecraft navigate.

After his co-op ended, Allen would return to JPL to spend all his school holidays co-oping. When Allen graduated in 1986, he had an offer waiting for him: a full-time position at JPL as a mechanical design engineer.

Making History, Breaking Records

Allen dove headfirst into major tasks early on at JPL, such as the development of the 70-meter Deep Space Network antenna and 34-meter waveguide beam designs, as well as mission support for Galileo. He wound up working on Cassini for 10 years, seeing it through the design cycle from start to finish.

"It was very fulfilling to work on a dedicated project," he says, calling Cassini "the last of the old-school projects," where the design of a major mission could take 10 or more years.

Allen soon found himself with the near-impossible job of helping to design a rover that would fit inside the Mars Pathfinder lander and then unfold itself on Mars. And it needed to be designed in record time: three years.

To meet the deadline, the team pitched reusing the architecture of Mars Pathfinder, which had successfully landed and deployed the first Mars rover, Sojourner, in July 1997. Not only did NASA end up selecting their proposal, but also requesting two rovers - what would become the Mars Exploration Rovers Spirit and Opportunity.

"There are not many times when you're given what you've asked," he recalls. "In this case, it was, 'Oh, you want two of them? OK, here we go.'"

Over the next three years, a team of managers, engineers, and technicians pushed through high stress levels and around-the-clock work schedules to complete the rovers, an experience Allen describes as one of the most challenging - and rewarding - endeavors he's taken on.

"Those rovers had my blood, tears, soul, and DNA," Allen says. "To have them touch down on another planet was as surreal as it gets."

Quantum Leaps and Tiger Teams

While those twin Mars Exploration Rovers (MER) tested JPL's ability to produce a rover in a short time period, the Curiosity rover - originally known as Mars Science Laboratory (MSL) - came with its own challenges.

"Going from MER to MSL was a quantum leap," Allen says. "MER was re-cooked from Pathfinder, but MSL was as close to a clean slate as you can get. We knew how to design rovers, but this one was going to be much bigger and do much more."

Of course, a clean slate meant a whole new slate of problems. Well after the design implementation, the team learned that there was an unexpected issue with the exhaust plume from the thrusters used during descent and landing.

The mission set up a "tiger team" to find a solution and asked Allen to join. "When a problem arises on a mission," he explains, "they put together a team of highly focused individuals; it's cross-talent. Those are always the ones I enjoy the most."

Over the next year and a half, the tiger team met "anywhere and everywhere" to understand the problem, trade concepts to solve the problem, and then to validate the concepts.

On Mars in 2014, after the MSL descent stage lowered Curiosity with cables onto the surface of Mars via the sky crane maneuver, Allen remembers the feeling of awe that it all worked out.

"We looked at everything we had done and thought, 'This is the craziest thing we've done so far.' It was super-challenging, all the things that had to come together to make this work."

Allen watched the landing from Beckman Auditorium at Caltech, which manages JPL for NASA. "There were a lot of tears," he recalls. "I was with the people I spent time in the trenches with to take in the landing, and you could tell everybody had the same reactions - it was deeper than words can provide."

Persevering

After being part of JPL's most historic Mars explorers, Allen felt ready to find challenges beyond rovers. But then he learned more about the Mars 2020 mission and was intrigued: The Mars 2020 team (the rover hadn't yet been named Perseverance) would need to preserve the architecture of Curiosity but create a new design for the rover, which would collect the first samples from another planet to be returned to Earth on a future mission.

Allen joined the Mars 2020 tiger team.

On paper, the idea sounded good, but the reality of a whole new suite of instruments turned out to be far more difficult. The work could often feel as terrifying as it was exhilarating. "A problem can pop up anytime," Allen says. "Someone wakes up at 3 a.m. with a nightmare they didn't consider and boom, we go look at it."

But Allen never loses sight of the joy behind the work.

"Bill is a glass-is-always-half-full kind of guy, even if it's got two drops of water in it," says Randy Lindemann, who has worked with Allen for more than 23 years. "He's got the most positive, upbeat attitude of anybody I've ever worked with at JPL."

Now, as Perseverance prepares to land on the Red Planet on Feb. 18, 2021, he's already working his next challenge: helping design the Mars Sample Retrieval Lander.

But while Allen thrives on the challenge, that's not necessarily what keeps him going.

"If I could summarize the best thing that's happened to me from being at JPL, it's working with such brilliant minds," he says. "When you consider we do what no one else is doing on the planet, the problems are unique and sometimes the solutions are as well. To be in the mix of those minds to solve some of these problems - it's been extraordinary."


News Media Contact

DC Agle
Jet Propulsion Laboratory, Pasadena, Calif.
818-393-9011
agle@jpl.nasa.gov

Grey Hautaluoma / Alana Johnson
NASA Headquarters, Washington
202-358-0668 / 202-358-1501
grey.hautaluoma-1@nasa.gov / alana.r.johnson@nasa.gov

Written by Celeste Hoang

2020-233

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Scotland Tackles "The Curse"

 

SCOTLAND

No Girl Left Behind

Scotland is tackling women’s rights in a new way – aiming to make sure females don’t fall into “period poverty.”

As Politico recently reported, local lawmakers enacted a law that compels local authorities, schools and other institutions to provide the public with free tampons, sanitary towels and other feminine hygiene products in their bathrooms in the same manner as they might offer running water and toilet paper.

“Periods should never be a barrier to education or push anyone into poverty,” said Monica Lennon, a Labor Party member of the Scottish Parliament who led the push for the new law. “Women, girls and all people who menstruate deserve period dignity.”

Backing up advocates for the law was a Plan International UK study that found that, during the lockdown in Britain, almost a third of girls between 14 and 21 years old faced challenges finding access to sanitary products.

Scotland’s move led many to question whether similar legislation might pass elsewhere in the world.

While Scotland is the first jurisdiction in the world to make feminine hygiene products free, some countries have banned the “tampon tax” – the value-added tax imposed on sanitary products. In Europe, Ireland is the only country with no tampon tax. Meanwhile, Hungary imposes a 27 percent tax rate on tampons, the highest in the bloc. In the US, seven states exempt the products from local sales taxes, according to the Tax Foundation, a Washington-based think tank.

Still, for some Scots, the issue was emotional – it was a move that symbolically represented the public acceptance of a bodily function that traditionally has been regarded as taboo, the BBC explained. “It just feels as if you’re valued as a woman,” Inga Dale, a 30-year-old Edinburgh resident, told the Lily, a Washington Post publication. “You are free to have your period, and it’s not something you should be ashamed of.”

For others, the legislation prompted political humor, a common way to deal with a potentially sensitive subject. Critics of the measure within the Scottish National Party, which rules local government, warned that traders might take the free feminine products and sell them across the border to the south, in England, for example.

“Just wait till the cross-border tampon raids begin, just as the SNP foretold,” wrote Holyrood, a Scottish current affairs magazine, in a satirical flourish, referring to the raiding of centuries past of livestock. “Cheer the bill while you can because the tampon reivers [or raiders] are on their way up from England as we speak. Loading up their horses. You never thought you’d see the day, did you? Like a modern version of cattle rustling, except with sanitary pads.”

The raids haven’t occurred yet but the idea has spread fast. That’s because, as some say quoting Victor Hugo, it’s an idea whose time has come.


Monday, November 16, 2020

A Memory Of The SpaceX Factory

 

History was made late in the afternoon when 4 astronauts blasted off in a Space-X rocket and went into orbit. Today they will dock with the International Space Station. Almost 6 years ago, Elena got a "once in a lifetime birthday gift." She got a tour of the Space-X factory in Hawthorne, California.

            This huge factory started life as a Boeing facility that assembled 747's. When Boeing no longer needed the facility, a young and unproven rocket company named Space-X bought it for a bargain price. Space-x turned it into a rocket factory and its corporate headquarters. To get a tour of this factory, one must be personally invited by Elon Musk or a Space-X employee. I had a friend who worked as an engineer there. I asked him to help me give Elena a birthday present like no other. He had a date that night and had to keep his fiance waiting while he gave us a tour of the factory.

      Tours always take place on a Friday night. You are not allowed to announce in advance on social media that you are making the tour. One is required to report to the facility at six in the evening. We arrived in a Lyft vehicle. It was pitch dark. The factory does not have much exterior lighting. There is an airfield next door with planes landing and taking off all the time. It is a surreal feeling like being in a science fiction movie.

        As our driver pulled into the parking lot, a golf cart with two armed guards pulled up. We were asked what we were doing there. I responded that we had come for the tour and mentioned the engineer's name. A quick call was made to verify our story. We were told to report to the company snack bar. After a short wait, we were taken to a reception area. We had to fill out a long questionnaire on an IPad and give a thumb print. We had to turn off our mobile phones and all other mobile devices. No cameras were allowed. We were sent to a waiting area.

       The inside of the factory was well-lighted and full of life. My friend came and we began the tour. It was amazing and we were dazzled. There were some surprises. Rocket engines are not "stamped out" as would be the engine for your car. Some of the parts are made on machines. The engines are then assembled by highly-skilled technicians. Elena got close to a Falcon-9 booster. What truly amazed her was that its skin was about the thickness of a beer can. She was amazed that such a frail cylinder could support so much weight and endure stresses of flying at up to 18,000 miles per hour.

     Yesterday as I watched the liftoff, I thought back to our tour of the factory.

 

Sunday, November 15, 2020

Blast Off To ISS

 History is about to be made as 4 brave astronauts are sitting atop a rocket and preparing to blast-off to the ISS. I am optimistiv, but also tense and full of stress/ Many challenges remain. This is not a "done deal."

Tuesday, November 10, 2020

Europa Puts On A Show!

 https://www.jpl.nasa.gov/news/news.php?feature=7779&utm_source=iContact&utm_medium=email&utm_campaign=nasajpl&utm_content=daily20201109-1

Monday, November 9, 2020

Lunar Mysteries

 

Lunar Mysteries

NASA recently found traces of water on the Moon’s sunlit surface.

Previous studies have found evidence of ice but the new findings show that water could exist across the lunar surface, USA Today reported.

“Now we know it is there,” said Paul Hertz, director of the astrophysics division in the science mission directorate at NASA headquarters in Washington. “This discovery challenges our understanding of the lunar surface and raises intriguing questions about resources relevant for deep space exploration.”

Researchers said that the agency’s Stratospheric Observatory for Infrared Astronomy (SOFIA) detected hydrogen and oxygen molecules. They suspect that the water came from different sources, such as comets, solar wind or even lunar volcanic eruptions.

The discovery is important for future moon exploration and colonization because astronauts could use these water resources for drinking and rocket fuel production.

NASA says it is unsure if the water is accessible enough to be used as a resource but noted that the future Artemis program hopes to solve the mystery.

The program plans to send astronauts to the Moon in 2024.


Friday, October 30, 2020

Green Mars And Beyond Approved By The State Of California!!

I just got the joyous news that the State of California has approved my non-profit foundation Green Mars And Beyond. My new mission in life will be supporting manned spaceflight t Mars and beyond!!!! Legal Zoom thanks!!!! 

Tuesday, October 27, 2020

Some Great Halloween Posters From JPL

 https://www.jpl.nasa.gov/news/news.php?feature=7768&utm_source=iContact&utm_medium=email&utm_campaign=nasajpl&utm_content=daily20201026-1

Tuesday, October 20, 2020

3 D Printed Parts Going To Mars I The Perseverance Rover

 https://www.jpl.nasa.gov/news/news.php?feature=7766&utm_source=iContact&utm_medium=email&utm_campaign=nasajpl&utm_content=daily20201019-1

Thursday, October 15, 2020

Thursday, October 8, 2020

The Incredible Capabilities Of The Mars 2020 Rover

 https://www.jpl.nasa.gov/news/news.php?feature=7760&utm_source=iContact&utm_medium=email&utm_campaign=nasajpl&utm_content=daily20201008-1

Thursday, October 1, 2020

MCM Birmingham Comic Con November 2018: Mary McDonnell

ATX Festival Panel: "Complex Not Complicated: A Look at a Woman's Charac...

BSG-M Exclusive! Edward James Olmos: working w/ Mary McDonnell, "El Amer...

A New Book On The India Space Program

 https://www.thespacereview.com/article/4032/1

A Small Rocket Company Pulls Off A Big One

 https://www.thespacereview.com/article/4033/1

FedCon 2018 Opening Ceremony PART 2 - BSG Reunion - Star Trek - Robert P...

The US Air Force Battles To Have Its Own Satellite Launch System

 https://www.thespacereview.com/article/4034/1

Another Spaceflight Reality Show "Bites The Dust!"

 https://www.thespacereview.com/article/4035/1

India's Mars Orbiter Has 6 Years "On The Job"

 https://www.thespacereview.com/article/4036/1

Saturday, September 5, 2020

Space Fam: Life in the Universe

In Praise Of The Netflix Mini Series Away!

 All of you know that I have a passion for Mars. I have watched every Mars movie and television series that I could get my hands on. I have even been to conferences where production teams on Mars series have been presenters. Netflix just premiered a ten-part miniseries about the first manned mission to Mars. It is called Away. It is high budget and well thought out. I'm sure that NASA, Space-X, and European Space Agency workers watching it think to themselves-"Oh my gosh that's what it's really like!" Here is a summary of the show:

https://www.imdb.com/title/tt8787802/?ref_=nv_sr_srsg_6

    The first human mission to Mars truly has an international crew. The commander is an American woman played by Hillary Swank. Other crew members come from Russia, Kenya, China, and the Middle East. There are a lot of Chinese characters in the show. Mandarin is spoken quite often with English subtitles. It is not a space opera. The astronauts are all very human with all sorts of problems to worry about back on earth. There are suspenseful moments and a lot of high drama. In bad times, it is good to have great entertainment!! Anna you would not go to sleep during this show!

Friday, September 4, 2020

The Virtual Humans To Mars Summit Was A Great Success!

 

     The Humans To Mars Summit ended yesterday. It is a great event. In the best of years, it is held in person in Washington, DC. This year it was a virtual event. It was a first-time for such a virtual event. It had many technical hurdles and a couple of false starts. The end result was a stunning conference that exceeded all expectations.

    One fascinating thing stands out and I want to share it with all of you. I have run into a lady named Vera Mulyani at many Mars events. She is an architect. She runs a very innovative company called Mars Design Studio. She designs cities and buildings for Mars. Vera is a very attractive lady in her late 30's. She is always well-dressed. She is always well-spoken. I assumed that she was from a very wealthy Indonesian family. One would need to be wealthy to be the international person who she is. Vera told her story yesterday during the conference. She started life in a slum in Jakarta. She made her way to France. She got educated as an architect. She practiced as an architect in France. She is a gifted artist. She has been able to finance her education and many ventures in life by selling artwork. She went to New York City. Later she went to Los Angeles. First, she wanted to be a filmmaker. She made several short films. Then she had a radical idea. She decided that she wanted to do architecture on Mars. (A famous Israeli woman architect named Michal Ziso also does this.) Vera launched a Go Fund Me Page. She raised $30,000 in a few days. Her company was born. Here is her life story:

https://en.wikipedia.org/wiki/Vera_Mulyani

    I have incredible admiration for people who defeat impossible odds.


Saturday, August 22, 2020

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Tuesday, August 11, 2020

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Bright Areas On Ceres Come From Salty Water Below

 

DAY IN REVIEW
NASA JPL latest news release
Mystery Solved: Bright Areas on Ceres Come From Salty Water Below
Data from NASA's recent Dawn mission answers two long-unresolved questions: Is there liquid inside Ceres, and how long ago was the dwarf planet geologically active?

NASA's Dawn spacecraft gave scientists extraordinary close-up views of the dwarf planet Ceres, which lies in the main asteroid belt between Mars and Jupiter. By the time the mission ended in October 2018, the orbiter had dipped to less than 22 miles (35 kilometers) above the surface, revealing crisp details of the mysterious bright regions Ceres had become known for.

Scientists had figured out that the bright areas were deposits made mostly of sodium carbonate - a compound of sodium, carbon, and oxygen. They likely came from liquid that percolated up to the surface and evaporated, leaving behind a highly reflective salt crust. But what they hadn't yet determined was where that liquid came from.

By analyzing data collected near the end of the mission, Dawn scientists have concluded that the liquid came from a deep reservoir of brine, or salt-enriched water. By studying Ceres' gravity, scientists learned more about the dwarf planet's internal structure and were able to determine that the brine reservoir is about 25 miles (40 kilometers) deep and hundreds of miles wide.

Ceres doesn't benefit from internal heating generated by gravitational interactions with a large planet, as is the case for some of the icy moons of the outer solar system. But the new research, which focuses on Ceres' 57-mile-wide (92-kilometer-wide) Occator Crater - home to the most extensive bright areas - confirms that Ceres is a water-rich world like these other icy bodies.

This mosaic image uses false color to highlight the recently exposed brine, or salty liquids, that were pushed up from a deep reservoir under Ceres' crust
This mosaic image uses false color to highlight the recently exposed brine, or salty liquids, that were pushed up from a deep reservoir under Ceres' crust. In this view of a region of Occator Crater, they appear reddish. Image credit: NASA/JPL-Caltech/UCLA/MPS/DLR/IDA
› Full image and caption

The findings, which also reveal the extent of geologic activity in Occator Crater, appear in a special collection of papers published by Nature Astronomy, Nature Geoscience, and Nature Communications on Aug. 10.

"Dawn accomplished far more than we hoped when it embarked on its extraordinary extraterrestrial expedition," said Mission Director Marc Rayman of NASA's Jet Propulsion Laboratory in Southern California. "These exciting new discoveries from the end of its long and productive mission are a wonderful tribute to this remarkable interplanetary explorer."

This mosaic image uses false color to highlight the recently exposed brine, or salty liquids, that were pushed up from a deep reservoir under Ceres' crust
This mosaic of Ceres' Occator Crater is composed of images NASA's Dawn mission captured on its second extended mission, in 2018. Bright pits and mounds (foreground) were formed by salty liquid released as Occator's water-rich floor froze after the crater-forming impact about 20 million years ago. Image credit: NASA/JPL-Caltech/UCLA/MPS/DLR/IDA/USRA/LPI
› Full image and caption

Solving the Bright Mystery

Long before Dawn arrived at Ceres in 2015, scientists had noticed diffuse bright regions with telescopes, but their nature was unknown. From its close orbit, Dawn captured images of two distinct, highly reflective areas within Occator Crater, which were subsequently named Cerealia Facula and Vinalia Faculae. ("Faculae" means bright areas.)

Scientists knew that micrometeorites frequently pelt the surface of Ceres, roughing it up and leaving debris. Over time, that sort of action should darken these bright areas. So their brightness indicates that they likely are young. Trying to understand the source of the areas, and how the material could be so new, was a main focus of Dawn's final extended mission, from 2017 to 2018.

The research not only confirmed that the bright regions are young - some less than 2 million years old; it also found that the geologic activity driving these deposits could be ongoing. This conclusion depended on scientists making a key discovery: salt compounds (sodium chloride chemically bound with water and ammonium chloride) concentrated in Cerealia Facula.

On Ceres' surface, salts bearing water quickly dehydrate, within hundreds of years. But Dawn's measurements show they still have water, so the fluids must have reached the surface very recently. This is evidence both for the presence of liquid below the region of Occator Crater and ongoing transfer of material from the deep interior to the surface.

The scientists found two main pathways that allow liquids to reach the surface. "For the large deposit at Cerealia Facula, the bulk of the salts were supplied from a slushy area just beneath the surface that was melted by the heat of the impact that formed the crater about 20 million years ago," said Dawn Principal Investigator Carol Raymond. "The impact heat subsided after a few million years; however, the impact also created large fractures that could reach the deep, long-lived reservoir, allowing brine to continue percolating to the surface."

Active Geology: Recent and Unusual

In our solar system, icy geologic activity happens mainly on icy moons, where it is driven by their gravitational interactions with their planets. But that's not the case with the movement of brines to the surface of Ceres, suggesting that other large ice-rich bodies that are not moons could also be active.

Some evidence of recent liquids in Occator Crater comes from the bright deposits, but other clues come from an assortment of interesting conical hills reminiscent of Earth's pingos - small ice mountains in polar regions formed by frozen pressurized groundwater. Such features have been spotted on Mars, but the discovery of them on Ceres marks the first time they've been observed on a dwarf planet.

On a larger scale, scientists were able to map the density of Ceres' crust structure as a function of depth - a first for an ice-rich planetary body. Using gravity measurements, they found Ceres' crustal density increases significantly with depth, way beyond the simple effect of pressure. Researchers inferred that at the same time Ceres' reservoir is freezing, salt and mud are incorporating into the lower part of the crust.

Dawn is the only spacecraft ever to orbit two extraterrestrial destinations - Ceres and the giant asteroid Vesta - thanks to its efficient ion propulsion system. When Dawn used the last of a key fuel, hydrazine, for a system that controls its orientation, it was neither able to point to Earth for communications nor to point its solar arrays at the Sun to produce electrical power. Because Ceres was found to have organic materials on its surface and liquid below the surface, planetary protection rules required Dawn to be placed in a long-duration orbit that will prevent it from impacting the dwarf planet for decades.

JPL, a division of Caltech in Pasadena, California, manages Dawn's mission for NASA's Science Mission Directorate in Washington. Dawn is a project of the directorate's Discovery Program, managed by NASA's Marshall Space Flight Center in Huntsville, Alabama. JPL is responsible for overall Dawn mission science. Northrop Grumman in Dulles, Virginia, designed and built the spacecraft. The German Aerospace Center, Max Planck Institute for Solar System Research, Italian Space Agency and Italian National Astrophysical Institute are international partners on the mission team.

For a complete list of mission participants, visit:

https://solarsystem.nasa.gov/missions/dawn/overview/