Fram2 launches. Humanity’s first crewed LEO circumpolar orbital mission launched late Monday evening. Onboard was an international crew of four (flying under the Norwegian, German, Australian, and Maltese flags), set to spend 3-5 days orbiting the Earth over both poles at a 90.01° inclination. (The highest crewed inclination was previously 65°, set by Soviet Vostok 6 in 1963—also the first mission to take a woman to space.) Fram2 took off uneventfully with its booster returning to a drone ship south of Florida’s space coast due to the mission’s close-to-due-south flight path. The mission’s Dragon carries a nose-cupola viewing window, and its crew will conduct 22 science experiments focused primarily on human spaceflight research, including performing blood flow restriction exercises and growing oyster mushrooms in microgravity for the first time. Fram2, paid for and commanded by crypto-billionaire Chun Wang (who is Chinese-born, but resides in Svalbard and has purchased citizenship from both Saint Kitts & Nevis and Malta, the latter of which is the flag he is flying under), will eventually splash down at one of SpaceX’s new West Coast landing areas. | |
| First views from Fram2 above the poles. Credit: SpaceX |
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Spectrum starts well; ends in the Norwegian Sea. Munich-headquartered Isar Aerospace launched its first orbital rocket, Spectrum, this week, the first commercial orbital launch attempt from a pad in Western Europe. The butane-liquid oxygen (butalox?) fueled rocket lifted off in front of the dramatic backdrop of Andøya Island and the Norwegian Sea. All seemed well for the first 10-15 seconds of flight, only to have the rocket begin wobbling, eventually losing attitude control completely after the call out to pitch down range. This may suggest a GNC-related failure vs a problem with the propulsion systems. Spectrum had a simple flight termination system (FTS) that shut down the engines and allowed the booster to tumble (mostly) harmlessly into the water just off the coast from the launch pad—the still very full fuel tanks exploded on contact with the sea, creating an impressive mushroom cloud (fantastic drone video). Isar stated that no injuries occurred, nor was there significant damage to the launch facility. Despite the outcome, leadership shared that the mission achieved all its success criteria and generated a large amount of useful data, much like Falcon 1’s first flight. We believe this is a positive first step towards orbit. Spectrum is a two-stage, 28-meter-tall rocket designed to carry one metric ton to LEO and is the first in a new crop of commercial launch efforts in Europe. The company already has two more rockets in manufacturing, but did not share a potential date for their next attempt. | |
| Spectrum takes off from Andøya. |
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Regional space activities (part III): Southeast Asia 🌏. In orbit, there are about 65 satellites owned by seven of the 11 countries in Southeast Asia. Indonesia initially formed the National Institute of Aeronautics and Space (LAPAN) in 1963, which was later consumed by research-focused BRIN, and then in 2022, the country established the Indonesian Space Agency (INASA), mostly focused on space policy. To date, no astronaut from Indonesia has made it to space despite the 1985 selection of Pratiwi Sudarmono as a payload specialist for NASA’s Space Shuttle mission STS-61-H, which was eventually canceled after the Challenger disaster. Indonesia, as an archipelago of 17,508 islands, offers multiple equatorial flight paths over low-to-no population zones. There have been multiple proposals to construct a spaceport on 500 hectares of government land on Biak Island, and the Stasiun Peluncuran Roket site has been used for sounding rocket flights and engine tests since 1965. Indonesia has sought to attract SpaceX as well as several space-faring nations; however, foreign investment has not been secured. In 2024, BRIN proposed a 2045 space roadmap to encourage the development of domestic space technology. Next, we have Singapore, which, since 2013, has been operating the Office for Space Technology & Industry Singapore (OSTIn), which received funding of S$150 million in 2022 and S$60 million in 2025 for its Space Technology Development Programme. Perhaps most significant is Singapore’s burgeoning commercial space sector with more than 50 domestic companies employing 2,000 professionals. Singapore is also a member of the Artemis Accords, the UN Committee on the Peaceful Uses of Outer Space (COPUOS), and the Committee on Space Research (COSPAR). Thailand became the first nation with agencies to join both the Artemis Accords, signed by the Geo-Informatics and Space Technology Development Agency (GISTDA), and China’s International Lunar Research Station, signed by the National Astronomical Research Institute of Thailand (NARIT). (UAE signed the Artemis Accords as a country in 2020, while one of its research labs signed on to ILRS in 2023.) Thailand’s first lunar payload will be a space weather monitoring device planned for launch on the Chinese Chang’e 7 orbiter next year. In Malaysia, the Malaysia Space Agency (MYSA), formed in 2019, is the successor to the 2002-founded Malaysian National Space Agency (ANGKASA). Malaysia currently operates nine satellites and supports many space-science education programs. Similar to neighboring Indonesia, the Philippines and Malaysia have also investigated building domestic launch sites. The Philippines established its own dedicated space agency in 2019, the Philippine Space Agency (PhilSA), and has now launched 11 small satellites. The Vietnam National Space Center (VNSC) has been working since 2011 on national space and satellite projects. Pham Tuan flew on the Salyut 6 mission in 1980 and became Vietnam’s first astronaut. Laos has one satellite in orbit (LaoSat-1), while Brunei, Cambodia, East Timor, and Myanmar have none so far (well, Myanmar launched its first satellite via a Japanese university partnership in 2020, but it was seized by Japan after the 2021 coup). We hope to see growing space activity in the region in the years ahead. — Part I of this series, focused on South America, ran in Issue № 284, and Part II, on Africa, ran in February in Issue № 306. | |
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News in brief. Rocket Lab launched eight satellites for Germany-based OroraTech as part of their ‘Finding Hot Wildfires Near You’ mission ● NASA terminated $420M in contracts to align with DOGE initiatives (here’s a growing list of contracts terminated, with some having $0 saved) ● Spain-based 5G IoT telecommunications operator Sateliot closed a €70M Series B to fund the deployment of a 100+ satellite constellation ● Two Chinese astronauts performed a 7-hour spacewalk to install the final debris shielding on Tiangong ● California commits to spending $95M on satellite methane data from nonprofit Carbon Mapper, who will process data from Planet’s Tanager hyperspectral-imaging satellites ● Gravitics won a $60M Space Force contract to leverage their commercial space station modules for Orbital Carrier, a platform capable of pre-positioning military assets in space for tactically responsive deployment (a spacecraft carrier?) ● Airbus will build the landing platform for ESA’s ExoMars / Rosalind Franklin rover, originally to be provided by Russia ● NASA canceled the NG-22 cargo resupply mission to the ISS after the mission’s Cygnus spacecraft was damaged in transit to the launch pad ● After two certification launches, the Space Force officially certified Vulcan for national security launches ● Firefly Aerospace selected Blue Origin-owned Honeybee Robotics to provide the lunar rover for their 2028 mission to the Gruithuisen Domes on the Moon’s near side ● Chinese startup Bluelink Satcom raised somewhere between $3M and $13M for a satellite network which can purportedly communicate with Bluetooth IoT devices on the ground ● The Space Force awarded Rocket Lab and Stoke Space contracts to on-ramp them as national security launch providers, joining Blue Origin, SpaceX, and ULA ● China launched an experimental classified satellite, which does something ● ESA sent the final commands to power down Gaia and overwrote its code to prevent reactivation (a video of it disappearing in the night sky), but its impactful data releases and science will continue for years to come. | |
| An artist’s impression of our galaxy, based on the data provided by Gaia. Our view of our stellar home has evolved significantly throughout this mission, including the orientation of our galaxy’s central bar and its multiple spiral arms (more than two, and less prominent than we thought), which are labeled in this version of the image. We think it’s lovely. |
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Etc.- The True Cost of Trump’s Cuts to NOAA and NASA.
- “A Cold War satellite program called Parcae revolutionized signals intelligence," an article about the advanced electronic intelligence Parcae satellite program, with launches occurring from 1976 to 1996. The program used trios of satellites to precisely geolocate electronic emissions from Soviet ships, and was only declassified in 2023.
- 100 years ago, Cecilia Payne’s PhD dissertation showed what the stars are made of. Many of her peers didn’t believe her at first, including Henry Norris Russell, who published her work as his own four years later.
- ‘As preps continue, it’s looking more likely that NASA will fly the Artemis II mission.’
- State of the Global Climate 2024.
- Curiosity’s mini-lab SAM instrument spotted the largest organic molecules yet detected on Mars, including decane, undecane, and dodecane. These 10-, 11-, and 12-carbon-atom hydrocarbons, respectively, could be fragments of fatty acids, essential organic compounds. They’re currently presumed to be of abiotic/prebiotic origin, but who knows?
- One of our recurring favorite ideas is satellites that fuel their thrusters by ingesting, accelerating, and ejecting space debris (…or, if things get really battle bots up there, other satellites they’re competing with). Magdrive’s propulsion system uses solid metal as a fuel (first flight test later this year) and could power such a future scavenger satellite (might we suggest it be called Vulture?), although they point to all sorts of “practical” concerns around ownership laws and the challenges in processing available carrion in orbit—these sound like excuses to us. One day soon, though, our vision of a true space ecosystem must come to life.
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A view, combining a recent JWST image with ALMA data, shows the PDS 70 star system with forming planets (PDS 70 b & c) and surrounding disk of gas and dust (paper). PDS 70 is 370 light-years away and only about 5 million years old, forming before our very eyes. 💫 | |
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