Tag: Portal

For the first time astronomers measure the rotation of exoplanets

10:10 am

The uncertainty of science: Using the Keck Telescope in Hawaii astronomers for the first time have measured the rotation of several exoplanets orbiting the star HR8799, about 129 light years away.

Using the state-of-the-art Keck Planet Imager and Characterizer (KPIC) on the Keck II telescope atop Hawaiʻi Island’s Maunakea, astronomers found that the minimum rotation speeds of HR 8799 planets d and e clocked in at 10.1 km/s and 15 km/s, respectively. This translates to a length of day that could be as short as three hours or could be up to 24 hours such as on Earth depending on the axial tilts of the HR 8799 planets, which are currently undetermined. For context, one day on Jupiter lasts nearly 10 hours; its rotation speed is about 12.7 km/s.

As for the other two planets, the team was able to constrain the spin of HR 8799 c to an upper limit of less than 14 km/s; planet b’s rotation measurement was inconclusive.

These results are somewhat uncertain, as are any conclusions theorists try to draw from them. Even if confirmed, the sample is so small it doesn’t tell us anything yet about overall trends in planet formation or the expected spin rate of planets as they form.

Nonetheless, the detection appears valid and thus a scientific triumph. Astronomers have been telling me for years that figuring out ways to find out more about exoplanets is going to become the next hot subject in astronomy. This result illustrates this.

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Scientists: Clay, not liquid water, explains radar data under Martian south icecap

9:57 am

The uncertainty of science: In a new paper scientists claim that clay materials, not liquid water, better explain the radar data obtained by orbital satellites, initially hypothesized to be liquid water lakes under Mars’ south polar icecap.

Sub-glacial lakes were first reported in 2018 and caused a big stir because of the potential for habitability on Mars. Astrobiologists and non-scientists were equally attracted to the exciting news. Now, the solution to this question, with great import to the planetary science community, may be much more mundane than bodies of water on Mars.

The strength of this new study is the diversity of techniques employed. “Our study combined theoretical modeling with laboratory measurements and remote sensing observations from The Compact Reconnaissance Imaging Spectrometer for Mars (CRISM) instrument on NASA’s Mars Reconnaissance Orbiter. All three agreed that smectites can make the reflections and that smectites are present at the south pole of Mars. It’s the trifecta: measure the material properties, show that the material properties can explain the observation, and demonstrate that the materials are present at the site of the observation,” Smith said.

This paper is only one of several recently that has popped the balloon on the liquid lake theory. Nothing is actually proven, but the weight of evidence is definitely moving away from underground liquid water under the south pole icecap.

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India officially delays launch of its next lunar rover to ’22

9:47 am

The new colonial movement: India has now officially delayed the launch of its next lunar rover, Chandrayaan-3, to the third quarter of 2022.

Chandrayaan-3 was planned to demonstrate India’s capability of soft landing on a celestial body, with the rover then communicating with Earth via the existing orbiter from Chandrayaan-2. The orbiter has an estimated lifespan of seven years. The third mission was announced months after the Vikram lander aboard Chandrayaan-2 crash-landed on the lunar surface just 2.1 km from its destination in September 2019. Chandrayaan- 3 was initially scheduled for late 2020 or early 2021, but the disruption caused by the pandemic affected the schedule.

The Wuhan flu panic has essentially shut down India’s entire space program for more than a year. Not only has the country only done one launch so far in 2021, far less than expected, it has also had to delay its manned space program by a year, as well as the launch of its own new smallsat rocket.

The delay in launches, including that smallsat rocket, is likely losing India customers in the commercial market, especially because the private rocket companies in the U.S. have continued to launch with almost no delays. If India doesn’t get off the ground soon its rocket industry will be seriously damaged in a way that might take years to recover.

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China’s Long March 2D rocket launches earth observation satellite

9:39 am

China today successfully used its Long March 2D rocket to launch an earth observation satellite into orbit.

The launch was from one of China’s interior spaceports, so the expendable first stage and fairings landed within China. No word on whether they landed uncontrolled or used the parachutes or grid fins to control the landing.

The leaders in the 2021 launch race:

24 China
20 SpaceX
12 Russia
3 Northrop Grumman
3 Rocket Lab

The U.S. still leads China 30 to 24 in the national rankings.

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Nauka finally docks with ISS

9:21 am

ISS configuration with Nauka added
The configuration of the Russian portion of ISS with
Nauka and the as-yet launched docking hub.

This morning the new fullsize module to ISS, Nauka, finally docked with the station, ending a week of tension because of issues with its engines.

The docking was not without issue, with Russian cosmonauts noting that Nauka wasn’t on the correct course less than an hour before docking; however, a retro burn quickly corrected the issue. After also troubleshooting an issue with the TORU manual docking system, Nauka successfully docked in automated fashion to the Zvezda service module’s nadir port at 09:29 EDT / 13:29 UTC, marking the first major expansion to the Russian segment for over 20 years.

They will now begin a series of eleven spacewalks to outfit the module. This includes installing a new European-built robot arm and transferring an airlock and radiator on a different module that were originally built to be attached to Nauka and have been waiting eleven years for its much delayed arrival.

In November Russia will then launch a small docking hub module that will dock with Nauka and provide the docking ports that were lost when the Piers module was detached earlier this week (thus allowing Nauka to dock). This new docking hub is also critical, because it will allow Russia to limit dockings to the aft port on Zvezda, which has serious structural stress issues and must be treated gently to prevent further hull cracks and air leaks.

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Rocket Lab returns to flight, launching an American military test satellite

11:53 pm

Capitalism in space: Rocket Lab tonight (July 29th in New Zealand) successfully launched its Electron rocket to place an American military technology test satellite into orbit.

This was the company’s first launch since a launch failure in May. Though the company has previously fished two first stage boosters out of the ocean as they test the engineering to allow the recover and reuse of those first stages, on this flight they made no such attempt.

The leaders in the 2021 launch race:

23 China
20 SpaceX
12 Russia
3 Northrop Grumman
3 Rocket Lab

The U.S. now leads China 30 to 23 in the national ranks. Last year the U.S. launched 40 times total. With the year seven months old, the U.S. has already reached three quarters of that number, suggesting that there is an outside chance that this year it could break its record of launches in a year, 70 in 1966. At the least the U.S. looks like it will achieve comparable launch numbers that were typical in the mid-1960s, at the dawn of the space age when NASA and the military were launching a lot to figure out the best way to do things.

Now the launches are privately owned, and exist because everyone is making money doing it. Assuming the world doesn’t get hit with a real disaster (instead of last year’s fake Wuhan flu panic), expect these numbers to continue to rise in the coming years.

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The nearest hill to China’s Zhurong

3:45 pm

Pitted cone near Zhurong
Click for full image.

Cool image time! The science team for the high resolution camera on Mars Reconnaissance Orbiter (MRO) today released a pair of images the camera took on June 28, 2021 of the nearest pitted cone to China’s Zhurong rover.

The stereo anaglyph to the right, cropped and reduced to post here, allows you, with blue-red 3D glasses, to see the cone in three dimensions. Quite impressive. As noted by Alfred McEwen of the Lunar & Planetary Laboratory in Arizona in his caption,

This image completed a stereo pair of a region just west of where the Zhurong rover landed in southern Utopia Planitia.

The cutout is from a portion of the stereo anaglyph, showing an enigmatic pitted cone. Is this cone composed of sediments or volcanic materials? The sharp bright features surrounding the cone are aeolian (wind-blown) landforms.

According to McEwan, the hill itself is about 200 to 220 feet high, with the pit at its top about 60-65 feet deep.

While McEwan has told me this cone would be his primary target if he was running Zhurong, it appears the Chinese are instead heading south toward the largest nearby crater, and on the way inspecting the parachute, fairing, and heat shield discarded just prior to landing.

The mosaic below from three MRO context camera images provides a wider overview.
» Read more

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July 27, 2021 Zimmerman Space Show podcast

10:12 am

The podcast of my two-hour appearance last night on The Space Show with David Livingston is now available here.

Thank you to David and tor everyone who called or emailed questions. Twas a very good show, to my mind. It also allowed me hone my verbal description of my new book, Conscious Choice. When I finish a book, I tend initially to get buried in the details in describing it in interviews. This appearance allowed me to get an idea on how to talk about the book quickly, in summary. I think it went well, and will certainly get better with future appearances.

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Blue Origin working to make 2nd stage of New Glenn reusable

8:53 am

Capitalism in space: According to this Ars Technica article by Eric Berger yesterday, Blue Origin has begun working on a project dubbed Jarvis, focused on making the upper stage of its orbital and as yet unlaunched New Glenn rocket reusable.

Bezos had been asking his senior staffers about reusable upper stages, but advisers told him such an approach was unlikely to work, sources said. Bezos also seems to have been told the SpaceX “fail forward” method of rapidly prototyping and testing Starships, with few processes and procedures, would be unlikely to succeed.

However, over the last year, Bezos took note as SpaceX launched and landed its Starship vehicle. This is one of the reasons he decided to initiate a project named “Jarvis” at Blue Origin within the reusable second-stage program. Sources said Bezos has walled off parts of the second-stage development program from the rest of Blue Origin and told its leaders to innovate in an environment unfettered by rigorous management and paperwork processes. [emphasis mine]

The highlighted sentences indicate evidence that the management that Bezos brought in to run Blue Origin for him in 2017 was definitely old school big space managers, with limited vision and timid about risk-taking, and that Bezos is beginning to recognize this and shift control of the company away from them.

This is excellent news, and suggests that we shall finally see some real progress at Blue Origin, something that has been lacking for the past four years. It also suggests that Bezos now recognizes he needs to make his rocket competitive with what SpaceX has, and is taking steps to make that happen

Isn’t competition and freedom wondeful? When allowed to flourish it makes things happen fast, and with amazing daring.

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German startup rocket company raises $75 million

8:41 am

Capitalism in space: The German startup rocket company Isar Aerospace announced today that it has raised $75 million, bringing the total in private investment capital it has obtained to $180 million.

The initial funding had funded construction of their Spectrum smallsat rocket. This new funding the company says will be used to expand their manufacturing and to begin work on making their rocket reusable.

Spectrum, the rocket Isar is developing, is a two-stage vehicle designed to place up to 1,000 kilograms into low Earth orbit. The vehicle is powered by Aquila engines that the company is also building.

Guillen said the company is preparing to start tests of the full Aquila engine soon on a test stand in Kiruna, Sweden. Isar is also working on a launch site in Norway, having signed an agreement in April with Andøya Space for exclusive use of a pad at a new site under development by the state-owned launch site operator.

A first launch of Spectrum from Andøya is expected in the second half of 2022, she said. The company expects to conduct three to four launches in 2023, with a long-term goal of about 10 launches per year. While Andøya is well-suited for launches to sun-synchronous orbits, Isar is considering alternative launch sites, such as French Guiana, for missions to lower inclination orbits.

Isar is one of three German smallstat rocket company startups, and appears from all accounts to be ahead of the other two, Rocket Factory Augsburg and HyImpulse Technologies, in funding and development.

There is some long term historical context to these German rocket companies. Following World War II, Germany was forbidden to build such things, both legally and culturally, as rockets too closely resemble the V2 rocket used by Hitler to bomb Great Britain. Even when Germany joined the European Space Agency as a partner the rocket building was left mostly to the French and the Italians.

This has now changed, partly because the rockets are small, partly because Europe has been shifting to the capitalism model in its space industry, partly because the memories from World War II have faded, and partly because ESA’s subsized effort at Arianespace to build a new low-cost replacement for its Ariane 5 rocket has not been successful. The Ariane 6 costs too much, and is thus not garnering customers from within ESA.

I think it will be really great to start listing separate European private companies in my launch race updates. Doing so will only emphasize the global acceleration of the competition to get into space.

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Fractured crater close to the Phoenix lander on Mars

2:37 pm

Fractured crater on Mars
Click for full image.

Cool image time! The photo to the right, cropped to post here, was taken on May 3, 2021 by the high resolution camera on Mars Reconnaissance Orbiter (MRO). It shows a remarkably fractured crater that lies only a few miles to the southeast of where the now-inactive Phoenix lander put down back in 2008, at the very high latitude of 69 degrees north.

Phoenix was purposely sent to this high latitude to find out what the ground and atmosphere was like there. It found the following:

Phoenix’s preliminary science accomplishments advance the goal of studying whether the Martian arctic environment has ever been favorable for microbes. Additional findings include documenting a mildly alkaline soil environment unlike any found by earlier Mars missions; finding small concentrations of salts that could be nutrients for life; discovering perchlorate salt, which has implications for ice and soil properties; and finding calcium carbonate, a marker of effects of liquid water.

Phoenix findings also support the goal of learning the history of water on Mars. These findings include excavating soil above the ice table, revealing at least two distinct types of ice deposits; observing snow descending from clouds; providing a mission-long weather record, with data on temperature, pressure, humidity and wind; observations of haze, clouds, frost and whirlwinds; and coordinating with NASA’s Mars Reconnaissance Orbiter to perform simultaneous ground and orbital observations of Martian weather.

Below is an overview map showing the location of both this crater and the Phoenix lander.
» Read more

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