Commercial space

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Rocket Report: Blue Origin to resume human flights; progress for Polaris Dawn

blue origin, Commercial space, ed Dwight, human spaceflight, launch, Polaris dawn, rocket report, russia, Science, Space, spacex, united launch alliance / /

The wait is over —

“The pacing item in our supply chain is the BE-4.”

Ed Dwight stands in front of an F-104 jet fighter in 1963.

Enlarge / Ed Dwight stands in front of an F-104 jet fighter in 1963.

Welcome to Edition 6.38 of the Rocket Report! Ed Dwight was close to joining NASA’s astronaut corps more than 60 years ago. With an aeronautical engineering degree and experience as an Air Force test pilot, Dwight met the qualifications to become an astronaut. He was one of 26 test pilots the Air Force recommended to NASA for the third class of astronauts in 1963, but he wasn’t selected. Now, the man who would have become the first Black astronaut will finally get a chance to fly to space.

As always, we welcome reader submissions, and if you don’t want to miss an issue, please subscribe using the box below (the form will not appear on AMP-enabled versions of the site). Each report will include information on small-, medium-, and heavy-lift rockets, as well as a quick look ahead at the next three launches on the calendar.

Ed Dwight named to Blue Origin’s next human flight. Blue Origin, Jeff Bezos’ space company, announced Thursday that 90-year-old Ed Dwight, who almost became the first Black astronaut in 1963, will be one of six people to fly to suborbital space on the company’s next New Shepard flight. Dwight, a retired Air Force captain, piloted military fighter jets and graduated test pilot school, following a familiar career track as many of the early astronauts. He was on a short list of astronaut candidates the Air Force provided NASA, but the space agency didn’t include him. It took 20 more years for the first Black American to fly to space. Dwight’s ticket with Blue Origin is sponsored by Space for Humanity, a nonprofit that seeks to expand access to space for all people. Five paying passengers will join Dwight for the roughly 10-minute up-and-down flight to the edge of space over West Texas. Kudos to Space for Humanity and Blue Origin for making this happen.

Return to flight … This mission, named NS-25, will be the first time Blue Origin flies with human passengers since August 2022. Blue Origin hasn’t announced a launch date yet for NS-25. On an uncrewed launch the following month, an engine failure destroyed a New Shepard booster and grounded Blue Origin’s suborbital rocket program for more than 15 months. New Shepard returned to flight December 19 on another research flight, again without anyone onboard. As the mission name suggests, this will be the 25th flight of a New Shepard rocket and the seventh flight with people. Blue Origin has a history of flying aviation pioneers and celebrities. On the first human flight with New Shepard in 2021, the passengers included company founder Jeff Bezos and famed female aviator Wally Funk. (submitted by EllPeaTea)

The easiest way to keep up with Eric Berger’s space reporting is to sign up for his newsletter, we’ll collect his stories in your inbox.

Revisit Astra’s 2020 rocket explosion. In March 2020, as the world was under the grip of COVID, Astra blew up a rocket in remote Alaska and didn’t want anyone to see it. New video published by TechCrunch shows Astra’s Rocket 3 vehicle exploding on its launch pad. This was one of several setbacks that have brought the startup to its knees. The explosion, which occurred at Alaska’s Pacific Spaceport Complex, was simply reported as an “anomaly” at the time, an industry term for pretty much any issue that deviates from the expected outcome, TechCrunch reports. Satellite imagery of the launch site showed burn scars, suggesting an explosion, but the footage published this week confirms the reality of the event. This was Astra’s first orbital-class rocket, and it blew up during a fueling rehearsal.

A sign of things to come … Astra eventually flew its Rocket 3 small satellite launcher seven times, but only two of the flights actually reached orbit. This prompted Astra to abandon its Rocket 3 program and focus on developing a larger rocket, Rocket 4. But the future of this new rocket is in doubt. Astra’s co-founders are taking the company private after its market value and stock price tanked, and it’s not clear where the company will go from here. (submitted by Ken the Bin)

The easiest way to keep up with Eric Berger’s space reporting is to sign up for his newsletter, we’ll collect his stories in your inbox.

Russia’s plan to “restore” its launch industry. Yuri Borisov, chief of the Russian space agency Roscosmos, has outlined a strategy for Russia to regain a dominant position in the global launch market, Ars reports. This will include the development of a partially reusable replacement for the Soyuz rocket called Amur-CNG. The country’s spaceflight enterprise is also working on “ultralight” boosters that will incorporate an element of reusability. In an interview posted on the Roscosmos website, Borisov said he hopes Russia will have a “completely new fleet of space vehicles” by the 2028-2029 timeframe. Russia has previously discussed plans to develop the Amur rocket (the CNG refers to the propellant, liquified methane). The multi-engine vehicle looks somewhat similar to SpaceX’s Falcon 9 rocket in that preliminary designs incorporated landing legs and grid fins to enable a powered first-stage landing.

Reason to doubt … Russia’s launch industry was a global leader a couple of decades ago when prices were cheap relative to Western rockets. But the heavy-lift Proton rocket is nearing retirement after concerns about its reliability, and the still-reliable Soyuz is now excluded from the global market after Russia’s invasion of Ukraine. In the 2000s and 2010s, Russia’s position in the market was supplanted by the European Ariane 5 rocket and then SpaceX’s Falcon 9. Roscosmos originally announced the medium-lift Amur rocket program in 2020 for a maiden flight in 2026. Since then, the rocket has encountered a nearly year-for-year delay in its first test launch. I’ll believe it when I see it. The only new, large rocket Russia has developed in nearly 40 years, the expendable Angara A5, is still launching dummy payloads on test flights a decade after its debut.

Rocket Report: Blue Origin to resume human flights; progress for Polaris Dawn Read More »

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Pentagon calls for tighter integration between military and commercial space

Commercial space, military space, Science, Space, space force / /
Aerial view of the Pentagon on March 31.

Enlarge / Aerial view of the Pentagon on March 31.

Photo by Daniel Slim/AFP via Getty Images

A strategy document released by the Pentagon this week lays out where the US military can most effectively rely on the commercial space industry and what missions should remain in government hands.

“This marks a new effort to harness the remarkable innovation of the commercial space sector to enhance our resilience and strengthen integrated deterrence as a department,” said John Plumb, assistant secretary of defense for space policy.

The Space Force already buys a lot from the commercial space industry. The military doesn’t build or own satellite launch vehicles—those come from commercial companies. While the Space Force operates government-owned reconnaissance and surveillance satellites, it also buys supplementary data and imagery from the commercial industry.

“To protect our men and women in uniform and to ensure the space services they rely on will be available when needed, the department has a responsibility to leverage all tools available, and those tools include commercial solutions,” Plumb said Tuesday. “From launch to space domain awareness to satellite communications and more, the commercial sector’s ability to innovate, to scale production and to rapidly refresh their technology is opening the door to all kinds of possibilities.”

The Pentagon defines the commercial space sector as companies that develop capabilities for sale on the commercial market, where the military is one of many customers. This is separate from the Pentagon’s procurement of government-owned airplanes and satellites from the defense industry.

Ripe for exploitation

Build or buy is an age-old question facing everyone from homeowners to billion-dollar enterprises. When it comes to space, the Pentagon is buying more than ever. The military’s new strategy document outlines 13 mission areas for national security space, and while the commercial space industry is rapidly growing, the Pentagon predominately buys commercial services in only one of those mission areas.

“Out of those 13, the only that’s clearly primarily commercial now is SAML.. which is Space Access, Mobility and Logistics, and space access is launch,” Plumb said. “So SpaceX, Firefly, Rocket Lab, all these different companies doing commercial launch, that’s where the commercial sector clearly can provide services.”

A SpaceX Falcon 9 rocket lifts off February 14 with satellites for the US military's Missile Defense Agency. Another Falcon 9 awaits launch in the foreground.

Enlarge / A SpaceX Falcon 9 rocket lifts off February 14 with satellites for the US military’s Missile Defense Agency. Another Falcon 9 awaits launch in the foreground.

Currently, the military classifies six mission areas as a hybrid of government and commercial capabilities:

  • Cyberspace operations
  • Satellite communications
  • Spacecraft operations,
  • Intelligence, surveillance, and reconnaissance
  • Space domain awareness (tracking of space objects)
  • Environmental monitoring.

In the remaining six mission areas, “a preponderance of functions must be performed by the government, while a select few could be performed by the commercial sector,” officials wrote in the commercial space strategy. In these areas, there is not yet a viable commercial market outside of the government, or commercial capabilities don’t match the government’s needs. These areas include:

  • Command and control (including nuclear command, control, and communications)
  • Electromagnetic warfare
  • Nuclear detonation detection
  • Missile warning
  • Position, navigation, and timing (GPS).

A major tenet of the commercial space strategy is for the military to support the development of new commercial space capabilities. This could involve supporting technology demonstrations and funding scientific research. Over time, new technology and new markets could bring more mission areas into the hybrid or commercial lists.

“I think what this strategy hopes to do is say, yes, continue working on bringing commercial entities in,” Plumb said. “This is actually a thing we want you to do, not just a thing you should be experimenting with.”

Pentagon calls for tighter integration between military and commercial space Read More »

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The world’s most-traveled crew transport spacecraft flies again

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A SpaceX Falcon 9 rocket lifts off with the Crew-8 mission, sending three NASA astronauts and one Russian cosmonaut on a six-month expedition on the International Space Station.

Enlarge / A SpaceX Falcon 9 rocket lifts off with the Crew-8 mission, sending three NASA astronauts and one Russian cosmonaut on a six-month expedition on the International Space Station.

SpaceX’s oldest Crew Dragon spacecraft launched Sunday night on its fifth mission to the International Space Station, and engineers are crunching data to see if the fleet of Dragons can safely fly as many as 15 times.

It has been five years since SpaceX launched the first Crew Dragon spacecraft on an unpiloted test flight to the space station and nearly four years since SpaceX’s first astronaut mission took off in May 2020. Since then, SpaceX has put its clan of Dragons to use ferrying astronauts and cargo to and from low-Earth orbit.

Now, it’s already time to talk about extending the life of the Dragon spaceships. SpaceX and NASA, which shared the cost of developing the Crew Dragon, initially certified each capsule for five flights. Crew Dragon Endeavour, the first in the Dragon fleet to carry astronauts, is now flying for the fifth time.

This ship has spent 466 days in orbit, longer than any spacecraft designed to transport people to and from Earth. It will add roughly 180 days to its flight log with this mission.

Crew Dragon Endeavour lifted off from Florida aboard a Falcon 9 rocket at 10: 53 pm EST Sunday (03: 53 UTC Monday), following a three-day delay due to poor weather conditions across the Atlantic Ocean, where the capsule would ditch into the sea in the event of a rocket failure during the climb into orbit.

Commander Matthew Dominick, pilot Michael Barratt, mission specialist Jeanette Epps, and Russian cosmonaut Alexander Grebenkin put on their SpaceX pressure suits and strapped into their seats inside Crew Dragon Endeavour Sunday evening at NASA’s Kennedy Space Center. SpaceX loaded liquid propellants into the rocket, while ground teams spent the final hour of the countdown evaluating a small crack discovered on Dragon’s side hatch seal. Managers ultimately cleared the spacecraft for launch after considering whether the crack could pose a safety threat during reentry at the end of the mission.

“We are confident that we understand the issue and can still fly the whole mission safely,” a member of SpaceX’s mission control team told the crew inside Dragon.

This mission, known as Crew-8, launched on a brand-new Falcon 9 booster, which returned to landing a few minutes after liftoff at Cape Canaveral Space Force Station. The Falcon 9’s upper stage released the Dragon spacecraft into orbit about 12 minutes after liftoff. The four-person crew will dock at the space station around 3 am EST (0800 UTC) Tuesday.

Crew-8 will replace the four-person Crew-7 team that has been at the space station since last August. Crew-7 will return to Earth in about one week on SpaceX’s Crew Dragon Endurance spacecraft, which is flying in space for the third time.

The Crew-8 mission came home for a reentry and splashdown off the coast of Florida in late August of this year, wrapping up Crew Dragon Endeavour’s fifth trip to space. This is the current life limit for a Crew Dragon spacecraft, but don’t count out Endeavour just yet.

Fleet management

“Right now, we’re certified for five flights on Dragon, and we’re looking at extending that life out,” said Steve Stich, NASA’s commercial crew program manager. “I think the goal would be for SpaceX to say 15 flights of Dragon. We may not get there in every single system.”

One by one, engineers at SpaceX and NASA are looking at Dragon’s structural skeleton, composite shells, rocket engines, valves, and other components to see how much life is left in them. Some parts of the spacecraft slowly fatigue from the stresses of each launch, reentry, and splashdown, along with the extreme temperature swings the capsule sees thousands of times in orbit. Each Draco thruster on the spacecraft is certified for a certain number of firings.

Some components are already approved for 15 flights, Stich said in a recent press conference. “Some, we’re still in the middle of working on,” he said. “Some of those components have to go through some re-qualification to make sure that they can make it out to 15 flights.”

Re-qualifying a component on a spacecraft typically involves putting hardware through extensive testing on the ground. Because SpaceX reuses hardware, engineers can remove a part from a flown Dragon spacecraft and put it through qualification testing. NASA will get the final say in certifying the Dragon spacecraft for additional flights because the agency is SpaceX’s primary customer for crew missions.

The Dragon fleet is flying more often than SpaceX or NASA originally anticipated. The main reason for this is that Boeing, NASA’s other commercial crew contractor, is running about four years behind SpaceX in getting to its first astronaut launch on the Starliner spacecraft.

When NASA selected SpaceX and Boeing for multibillion-dollar commercial crew contracts in 2014, the agency envisioned alternating between Crew Dragon and Starliner flights every six months to rotate four-person crews at the International Space Station. With Boeing’s delays, SpaceX has picked up the slack.

The world’s most-traveled crew transport spacecraft flies again Read More »

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For Virgin Galactic, becoming profitable means a pause in flying to space

Commercial space, human spaceflight, Science, Space, Spaceport America, suborbital space, Virgin Galactic / /
Virgin Galactic's VSS <em>Unity</em> rocket plane ignites its rocket motor moments after release from a jet-powered carrier aircraft high above New Mexico.” src=”https://cdn.arstechnica.net/wp-content/uploads/2024/02/unity22release-800×922.jpeg”></img><figcaption> <p><a data-height=Enlarge / Virgin Galactic’s VSS Unity rocket plane ignites its rocket motor moments after release from a jet-powered carrier aircraft high above New Mexico.

Last year, Virgin Galactic seemed to finally be hitting a stride toward making commercial suborbital spaceflight. The company flew its SpaceShipTwo rocket plane to the edge of space six times in six months, giving a few Virgin Galactic customers a taste of spaceflight after waiting more than a decade.

Finally, it appeared that Virgin Galactic turned a corner, moving past the setbacks and course corrections that delayed founder Sir Richard Branson’s aim of bringing spaceflight to a wider population. Virgin Galactic officials wouldn’t describe the company’s next step as a setback or a course correction. It’s part of an intentional business strategy to make Branson’s dream a reality.

“That dream behind Virgin Galactic came into sharp focus as we repeatedly flew spaceship Unity in 2023,” said Michael Colglazier, Virgin Galactic’s president and CEO, in a quarterly earnings call this week. “Now, in 2024, we’re poised for even more meaningful accomplishments as we build the fleet of spaceships that will turn the dream into reality and long-term success.”

But to do so, Virgin Galactic needs to give up on the horse that got them here.

On 11 missions, including test flights, the VSS Unity rocket plane has soared higher than 50 miles (80 kilometers)—where space begins, according to the US government’s definition—but it will probably fly just once more. Virgin Galactic is redirecting resources toward completing the development and testing of a new fleet of rocket planes known as Delta-class ships, which the company says will outclass VSS Unity in flight cadence, reusability, and revenue-earning potential.

Colglazier said the first of Virgin Galactic’s Delta ships is on track to begin ground and flight testing next year, with commercial service targeted for 2026 based out of Spaceport America in New Mexico.

One more and done

Late last year, Virgin Galactic announced it would retire VSS Unity by the middle of 2024, following the company’s Galactic 07 or Galactic 08 missions. On Tuesday, a company spokesperson confirmed to Ars that Virgin Galactic will pause flights of VSS Unity after the Galactic 07 mission slated for this spring. That means the rocket plane will fly to space just one more time, taking four customers into suborbital space to experience a few minutes of microgravity before coming back to land on a runway.

Colglazier said this next flight will have a “blended manifest of researchers and private citizens.” The company hasn’t identified any of the passengers, and for the last several flights, hasn’t announced the names of its passengers until after they landed.

Mike Moses, Virgin Galactic’s president of spaceline operations, said the Galactic 07 mission, the final flight of VSS Unity, is scheduled for the second quarter of this year, sometime between the beginning of April and the end of June. He said engineers are looking at a “minor change” to a retention mechanism that malfunctioned on the Galactic 06 flight last month, causing an alignment pin to fall to the ground as the rocket plane separated from its carrier aircraft over New Mexico.

Virgin Galactic reported the anomaly earlier this month, but Moses said the alignment pin performed its function of keeping the VSS Unity spacecraft properly aligned to its carrier jet through pre-flight procedures until the rocket plane separated from the aircraft to fire its rocket motor and climb to the edge of space. The anomaly “posed no safety threat at all during the flight,” he said, but “clearly we don’t want it to fall.”

The reason for pulling VSS Unity off flight status boils down to money, not any technical limitation. In August, Moses told Ars that VSS Unity could be capable of 500 to 1,000 flights.

For Virgin Galactic, becoming profitable means a pause in flying to space Read More »

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Varda’s drug-cooking Winnebago will be remembered as a space pioneer

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Varda's reentry capsule soon after landing at the Utah Test and Training Range.

Enlarge / Varda’s reentry capsule soon after landing at the Utah Test and Training Range.

Varda Space Industries is finally able to celebrate. For nearly eight months, the in-space manufacturing company’s first mission was essentially stranded in low-Earth orbit, but not because of any technical malfunction or a restriction imposed by the laws of physics.

Instead, the spacecraft couldn’t return to Earth until Varda and three government entities—the US military, the Federal Aviation Administration’s Office of Commercial Space Transportation, and the FAA’s Air Traffic Organization—all got on the same page. This was far more complicated than anyone envisioned, and Varda had to bypass landing opportunities in July and September because it couldn’t secure governmental approvals.

Finally, earlier this month, the FAA approved a commercial reentry license for Varda’s space capsule, which was somewhat larger than a mini-fridge, to fall back into the atmosphere and parachute to a landing in the remote Utah desert southwest of Salt Lake City. Varda’s landing zone was at the Utah Test and Training Range, a sprawling military facility primarily used for weapons testing.

Varda’s capsule landed in the Utah desert at around 4: 40 pm EST (2140 UTC) last Wednesday. Approaching from the north, the craft’s heat shield protected it from scorching temperatures during reentry. Then, the capsule deployed a 6.2-foot-diameter (2.1-meter) parachute to slow its velocity for a relatively gentle landing.

A recovery team went out to retrieve the nearly 200-pound capsule and connect it to a helicopter line for a short flight to a nearby processing facility, where engineers would prepare the spacecraft for transport back to Varda’s headquarters in El Segundo, California.

The mood at Varda following the successful landing was “as cheerful as it gets,” said Delian Asparouhov, who co-founded the company in 2020 with former SpaceX engineer Will Bruey and scientist Daniel Marshall.

“I always felt confidence in our team’s ability to accomplish this,” Asparouhov told Ars. “It was just a question of time.”

Waiting game

Varda achieved several firsts with this mission. The Utah Test and Training Range (UTTR) has some experience in supporting spacecraft landings, but this was the first time a commercial spacecraft landed at a military test range, adding another layer of regulatory and bureaucratic oversight. In September, NASA’s OSIRIS-REx mission deposited a cache of asteroid samples at UTTR.

Varda was the first company to secure a commercial FAA reentry license under streamlined commercial spaceflight regulations known as Part 450. This licensing paradigm is regularly used for commercial launches (there were 117 FAA-licensed launches last year), but this was the first time any company went through this process for a reentry.

Only two companies received commercial FAA reentry licenses before Varda—Lockheed Martin for a single test flight of the Orion spacecraft in 2014 and SpaceX for more than 40 commercial flights of its Dragon crew and cargo spacecraft. Both companies have operated under previous licensing regimes before the FAA introduced the revised Part 450 protocol in 2020.

The FAA’s commercial space office is responsible for licensing commercial launch and reentry operations, with a primary interest in ensuring that these activities don’t endanger the public. But FAA air traffic controllers had to find a time to clear a broad swath of airspace around the trajectory of Varda’s descending space capsule. The FAA’s temporary flight restriction for Varda’s reentry was unusually large, particularly for such a small spacecraft, stretching more than 400 miles (700 kilometers) long and 60 miles (100 kilometers) wide from southern Montana to western Utah.

The timing of Varda’s reentry, along with Varda’s access to the secure military facility, also had to be coordinated with the test range’s busy schedule of military exercises.

Varda’s drug-cooking Winnebago will be remembered as a space pioneer Read More »

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Rocket Report: Starliner launch preps; Indian rocket engine human-rated

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Cape-a-palooza —

The Bahamian government and SpaceX signed an agreement for Falcon 9 booster landings.

The first stage of United Launch Alliance's Atlas V rocket was lifted onto its launch platform this week in preparation for an April liftoff with two NASA astronauts on Boeing's Starliner Crew Flight Test.

Enlarge / The first stage of United Launch Alliance’s Atlas V rocket was lifted onto its launch platform this week in preparation for an April liftoff with two NASA astronauts on Boeing’s Starliner Crew Flight Test.

United Launch Alliance

Welcome to Edition 6.32 of the Rocket Report! I’m writing the report again this week as Eric Berger is in Washington, DC, to receive a well-earned honor, the 2024 Excellence in Commercial Space Journalism Award from the Commercial Spaceflight Federation. Cape Canaveral is the world’s busiest spaceport, and this week, three leading US launch companies were active there. SpaceX launched another Falcon 9 rocket, and a few miles away, Blue Origin raised a New Glenn rocket on its launch pad for long-awaited ground testing. Nearby, United Launch Alliance began assembling an Atlas V rocket for the first crew launch of Boeing’s Starliner spacecraft in April. 2024 is shaping up to be a truly exciting year for the spaceflight community.

As always, we welcome reader submissions, and if you don’t want to miss an issue, please subscribe using the box below (the form will not appear on AMP-enabled versions of the site). Each report will include information on small-, medium-, and heavy-lift rockets, as well as a quick look ahead at the next three launches on the calendar.

Astroscale inspector satellite launched by Rocket Lab. Astroscale, a well-capitalized Japanese startup, has launched a small satellite to do something that has never been done in space, Ars reports. This new spacecraft, delivered into orbit on February 18 by Rocket Lab, will approach a defunct upper stage from a Japanese H-IIA rocket that has been circling Earth for more than 15 years. Over the next few months, the satellite will try to move within arm’s reach of the rocket, taking pictures and performing complicated maneuvers to move around the bus-size H-IIA upper stage as it moves around the planet at nearly 5 miles per second (7.6 km/s).

This is a first … Astroscale’s ADRAS-J mission is the first satellite designed to approach and inspect a piece of space junk in orbit. This is a public-private partnership between Astroscale and the Japanese space agency. Of course, space agencies and commercial companies have demonstrated rendezvous operations in orbit for decades. The difference here is the H-IIA rocket is uncontrolled, likely spinning and in a slow tumble, and was never designed to accommodate any visitors. Japan left it in orbit in January 2009 following the launch of a climate monitoring satellite and didn’t look back. ADRAS-J is a technology demonstration that could pave the way for a follow-on mission to actually link up with this H-IIA rocket and remove it from orbit. Astroscale eventually wants to use these technologies for satellite servicing, refueling, and further debris removal missions. (submitted by Ken the Bin and Jay500001)

Software error blamed for Firefly launch malfunction. Firefly Aerospace released an update Tuesday on an investigation into an upper stage malfunction on the company’s Alpha rocket in December. The investigation team, consisting of membership from Firefly, the Federal Aviation Administration, the National Transportation Safety Board, Lockheed Martin, NASA, and the US Space Force, determined a software error in the rocket’s guidance, navigation, and control software algorithm ultimately caused the Alpha rocket to release its payload into a lower-than-planned orbit following a launch from California.

Upper stage woes… The software error prevented the rocket from sending the “necessary pulse commands” to control thrusters on the upper stage before its main engine was supposed to reignite. This second burn by the upper stage was supposed to circularize the rocket’s orbit, but it didn’t happen as planned. Still, the Alpha rocket safely released its commercial satellite payload for Lockheed Martin. Although the lower orbit caused the satellite to reenter the atmosphere earlier this month, Lockheed Martin said it was able to achieve many of the objectives of the technology demonstration mission, which focused on testing an electronically steered antenna. This was the fourth launch of an Alpha rocket, and two of them have suffered from upper stage malfunctions during engine restart attempts. Firefly says it is preparing the next Alpha rocket to fly “in the coming months.” (submitted by Ken the Bin)

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A good fundraising round for Gilmour Space. Australian startup Gilmour Space Technologies has raised $55 million Australian dollars ($36 million) in a Series D funding round announced Monday, Space News reports. The funding supports the small launch vehicle startup’s campaign to manufacture, test, and begin launching rockets and satellites from the Bowen Orbital Spaceport in North Queensland. Gilmour Space, founded in 2012, is developing a three-stage rocket called Eris. The first Eris test flight is expected “in the coming months, pending launch approvals from the Australian Space Agency,” according to the Gilmour Space news release.

Launching from down under… Gilmour Space is aiming to launch the first Australian-built rocket into orbit later this year. The Eris rocket is powered by hybrid engines, and Gilmour says it is capable of delivering about 670 pounds (305 kilograms) of payload mass into a Sun-synchronous orbit. The $36 million fundraising round announced this week follows a $46 million fundraising round in 2021. According to the Australian Broadcasting Corporation, Gilmour Space is aiming for the first flight of Eris in April, and this latest fundraising should give the company enough money to mount four test flights. (submitted by Ken the Bin)

Rocket Report: Starliner launch preps; Indian rocket engine human-rated Read More »

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Jeff Bezos’ New Glenn rocket finally makes an appearance on the launch pad

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Integrated —

Blue Origin plans a tanking test at Cape Canaveral, then a hotfire on the launch pad.

Dave Limp, Blue Origin's new CEO, and founder Jeff Bezos observe the New Glenn rocket on its launch pad Wednesday at Cape Canaveral Space Force Station, Florida.

Enlarge / Dave Limp, Blue Origin’s new CEO, and founder Jeff Bezos observe the New Glenn rocket on its launch pad Wednesday at Cape Canaveral Space Force Station, Florida.

Anyone who has tracked the development of Blue Origin’s New Glenn rocket has been waiting for signs of progress from the usually secretive space company. On Wednesday, engineers rolled a full-scale New Glenn rocket, partially made up of flight hardware, to a launch pad in Florida for ground testing.

The first New Glenn launch is almost certainly at least six months away, and it may not even happen this year. In the last few years, observers inside and outside the space industry have become accustomed to the nearly annual ritual of another New Glenn launch delay. New Glenn’s inaugural flight has been delayed from 2020 until 2021, then 2022, and for now, is slated for later this year.

But it feels different now. Blue Origin is obviously moving closer to finally launching a rocket into orbit.

Scaling up

Jeff Bezos, Blue Origin’s founder, was at Cape Canaveral to see his giant new rocket on the launch pad for the first time. “Just incredible to see New Glenn on the pad at LC-36,” Bezos wrote on Instagram. “Big year ahead. Let’s go!”

Starting late last year, Blue Origin officials doubled down on the company’s plans to launch the first New Glenn test flight by the end of 2024. This messaging coincided with the arrival of Dave Limp as Blue Origin’s chief executive, replacing Bob Smith, whose seven-year tenure included the first human suborbital flights on the company’s New Shepard rocket. Smith’s time as CEO was also marked by repeated delays on the New Glenn rocket.

Limp is pushing Blue Origin to move faster, and it seems the company’s employees got the memo. In December, the company rolled elements of the New Glenn rocket from its factory just outside the gates of NASA’s Kennedy Space Center to a final assembly hangar located about nine miles away at Cape Canaveral Space Force Station.

Inside that building, technicians connected the first stage booster, which is flight hardware, with an upper stage Blue Origin has set aside for ground testing. The final piece of the rocket to be added was a 23-foot-diameter (7-meter) payload fairing, the uppermost section of New Glenn designed to protect spacecraft during the initial phase of launch.

Last week, Blue Origin lifted a structure simulating the rocket’s empty mass vertical using the transporter-erector arm at Launch Complex 36 (LC-36), a former Atlas launch pad Blue Origin took over in 2015. This was a final validation of the lifting arm at LC-36 before Blue Origin put a real, or mostly real, rocket on the pad.

The first full-scale New Glenn rocket rolls out at Launch Complex 36.

Enlarge / The first full-scale New Glenn rocket rolls out at Launch Complex 36.

On Wednesday, ground crews rolled a fully assembled New Glenn rocket out of the hangar at LC-36 and up the ramp to the launch mount. Then, the hydraulic lifting arm raised the two-stage launcher vertically. At more than 320 feet (98 meters) tall, New Glenn is one of the largest rockets ever seen on Florida’s Space Coast, roughly the same height as NASA’s Space Launch System rocket and nearly as tall as the Saturn V used in the Apollo program.

“The upending is one in a series of major manufacturing and integrated test milestones in preparation for New Glenn’s first launch later this year,” Blue Origin officials wrote in an update on Wednesday. “The test campaign enables our teams to practice, validate, and increase proficiency in vehicle integration, transport, ground support, and launch operations.”

New Glenn can haul nearly 100,000 pounds (45 metric tons) of payload into low-Earth orbit. For low-altitude orbits, this is a weight class above the uppermost capability of United Launch Alliance’s Vulcan rocket or SpaceX’s Falcon 9 rocket but below SpaceX’s Falcon Heavy. Blue Origin also plans to use the New Glenn rocket to launch lunar landers to the Moon for NASA’s Artemis program.

New Glenn’s first stage booster is reusable, and is designed to land on an offshore barge in the Atlantic Ocean, which will bring it back to the coast, similar to the way SpaceX recovers its Falcon 9 booster.

“The fairing is large enough to hold three school buses,” Blue Origin said. “Its reusable first stage aims for a minimum of 25 missions and will land on a sea-based platform located roughly 620 miles (1,000 kilometers) downrange.”

Blue Origin is now 24 years old and employs around 11,000 people at locations around the country, with major locations in Washington, Texas, Florida, and Alabama. While the company has not yet launched anything into orbit, Blue Origin is working on a wide range of projects aside from rockets, including cargo and human-rated lunar landers for NASA and a space tug that could move payloads into different orbits for the US military. New Glenn is crucial for all of these plans.

Blue Origin’s latest progress with New Glenn comes as Bezos’s space company appears to be on the verge of buying United Launch Alliance from Boeing and Lockheed Martin.

Jeff Bezos’ New Glenn rocket finally makes an appearance on the launch pad Read More »

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Test flights on tap for Space Perspective’s luxury high-altitude balloon

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Space Perspective's first test capsule, <em>Excelsior</em>, has a diameter of approximately 16 feet (4.9 meters).” src=”https://cdn.arstechnica.net/wp-content/uploads/2024/02/Space_Perspective_Capsule_Front_on_Sunset_Landscape-800×533.jpg”></img><figcaption> <p><a data-height=Enlarge / Space Perspective’s first test capsule, Excelsior, has a diameter of approximately 16 feet (4.9 meters).

Space Perspective could begin test flights of its privately owned capsule suspended under a high-altitude balloon within the next couple of months, the company’s co-founder told Ars this week.

Florida-based Space Perspective released photos of its first completed test capsule Tuesday. The company will use this pressurized capsule, called Excelsior, for a series of test flights this year over the Atlantic Ocean just off the coast of Cape Canaveral. Taber MacCallum, Space Perspective’s co-founder and chief technology officer, said employees have also finished fabricating the giant balloon that will lift the test capsule into the upper atmosphere for the first test flight.

The final piece of the puzzle is a ship, named Marine Spaceport Voyager, that Space Perspective will use to launch the balloon and capsule. This vessel is due to depart an outfitting facility in Louisiana in the next few weeks for a trip to Port Canaveral, Florida, where Space Perspective will load aboard the capsule and balloon. Then, perhaps in four to six weeks, ground teams will be ready for the system’s first test flight, according to MacCallum.

But this is a test program, and there could be delays, MacCallum said. In the meantime, Space Perspective will start building a second capsule for human test flights.

“We’ll do a series of unmanned tests with this capsule,” he said. “In theory, we could fly people in this capsule. It’s designed that way, and it has all of the systems set up for human flight. But our planning assumes that trailing on what we learn from this capsule, we build another capsule that will be our first human flight capsule. And this will remain an unmanned test capsule.”

Soaring to the edge of “space”

These tests are a prelude to Space Perspective’s plans for regular commercial flights carrying paying customers to 100,000 feet (about 30 kilometers), roughly three times higher than the cruising altitude of a typical commercial airliner. From 100,000 feet, Space Perspective’s clients will see panoramic views of the ground and ocean far below, and the sky will be black, with the capsule flying above 99 percent of Earth’s atmosphere.

Founded in 2019, Space Perspective says on its website it is “driven by a desire to share the transformative power of space travel with as many people as possible.” In reality, the company will give customers an experience similar to spaceflight, with a few significant differences.

Essentially, passengers on Space Perspective’s high-altitude balloon will get a view the company says is similar to what a passenger might see on a suborbital spacecraft from Blue Origin or Virgin Galactic. But Space Perspective’s vehicle won’t subject customers to any high G-forces or the risks of rocket flight. The balloon passengers also won’t float in microgravity. And it will max out at 30 kilometers, well short of the 80-kilometer boundary of space recognized by the US government or the 100-kilometer Kármán line.

Still, the view from 30 kilometers must be tremendous. “You’ll see essentially all of Florida,” MacCallum said. “We’re also looking at flying sort of across the southern tip of Florida, so you’d see Cuba, the Bahamas, essentially all of Florida. So amazing views.”

Test flights on tap for Space Perspective’s luxury high-altitude balloon Read More »

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Before snagging a chunk of space junk, Astroscale must first catch up to one

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This artist's illustration released by Astroscale shows the ADRAS-J spacecraft (left) approaching the defunct upper stage from a Japanese H-IIA rocket.

Enlarge / This artist’s illustration released by Astroscale shows the ADRAS-J spacecraft (left) approaching the defunct upper stage from a Japanese H-IIA rocket.

Astroscale, a well-capitalized Japanese startup, is preparing a small satellite to do something that has never been done in space.

This new spacecraft, delivered into orbit Sunday by Rocket Lab, will approach a defunct upper stage from a Japanese H-IIA rocket that has been circling Earth for more than 15 years. Over the next few months, the satellite will try to move within arm’s reach of the rocket, taking pictures and performing complicated maneuvers to move around the bus-size H-IIA upper stage as it moves around the planet at nearly 5 miles per second (7.6 km/s).

These maneuvers are complex, but they’re nothing new for spacecraft visiting the International Space Station. Military satellites from the United States, Russia, and China also have capabilities for rendezvous and proximity operations (RPO), but as far as we know, these spacecraft have only maneuvered in ultra-close range around so-called “cooperative” objects designed to receive them.

The difference here is the H-IIA rocket is uncontrolled, likely spinning and in a slow tumble, and was never designed to accommodate any visitors. Japan left it in orbit in January 2009 following the launch of a climate monitoring satellite and didn’t look back.

That was the case, at least, until a few years ago, when the Japan Aerospace Exploration Agency (JAXA) partnered with Astroscale in a public-private partnership to demonstrate capabilities the private sector could use to eventually remove large pieces of space debris littering low-Earth orbit. The same robotic technologies could also apply to satellite servicing or refueling missions.

“We are putting this debris removal by robotic technology as one of our main technology development areas because safely approaching an object, and also observing the object and capturing the object, is basically a common technology for any on-orbit servicing,” said Eddie Kato, president and managing director of Astroscale Japan.

In hot pursuit

This mission is called ADRAS-J, short for Active Debris Removal by Astroscale-Japan. “This mission entails the first ever approach of actual space debris and will be a monumental step toward a more sustainable future in space,” Mike Lindsay, Astroscale’s chief technology officer, posted on X.

The ADRAS-J spacecraft, built in-house at Astroscale’s Tokyo headquarters, is about the size of a kitchen oven and weighs roughly 330 pounds (150 kilograms) fully fueled. The satellite launched from New Zealand at 9: 52 am EST (1452 UTC) Sunday aboard an Electron rocket provided by Rocket Lab. About an hour after liftoff, ADRAS-J deployed from the Electron’s kick stage into an on-target polar orbit reaching an altitude of 370 miles (600 kilometers) at its highest point.

The liftoff from Rocket Lab’s spaceport in New Zealand was timed to allow ADRAS-J to launch into the same orbital plane as its objective—the H-IIA upper stage. Astroscale reported the spacecraft was healthy after Sunday’s launch. In a pre-launch interview, Kato said ADRAS-J will begin its pursuit of the spent H-IIA rocket in a couple of weeks, once ground teams complete initial checkouts of the spacecraft.

ADRAS-J will fire thrusters to match orbits with the H-IIA rocket, and as soon as next month, it could be flying within about 300 feet (100 meters) of the abandoned upper stage. Astroscale engineers will initially rely on ground-based tracking data to pinpoint the H-IIA’s location in space. Once in closer range, ADRAS-J will use visible and infrared cameras, along with laser ranging sensors, to transition to relative navigation mode. These sensors will measure the distance, closing rate, and orientation of the upper stage.

Astroscale officials view the switch from relying on ground tracking data to onboard relative navigation sensors as a crucial moment for the ADRAS-J mission. ADRAS-J will circle the rocket to assess its spin rate, spin axis, and the condition of its structure. This is the crux of the challenge for ADRAS-J because the rocket is unpowered and therefore unable to hold position. The upper stage also lacks laser reflectors and targets that would aid an approaching spacecraft.

This will mark the conclusion of the JAXA-supported portion of the ADRAS-J mission. If everything is working as planned, the spacecraft could move closer to the rocket to further validate Astroscale’s sensor suite and automated navigation and guidance algorithms. This will allow the company’s engineers to gather data for a proposed follow-on mission to actually go up and grab onto the same H-IIA upper stage and remove it from orbit.

“We are targeting to go closer, maybe 1 to 2 meters away from the object. Why? Because the next mission will be to really capture the H-IIA launch vehicle,” Kato told Ars last week. “In order to safely approach to a range where a robotic arm is able to be extended, it’s probably like 1.5 to 2 meters away from the object. We want to demonstrate up to that point through this ADRAS-J mission. Then on the next mission, called ADRAS-J2, we are actually equipping the robotic arm and capturing the H-IIA launch vehicle.”

Before snagging a chunk of space junk, Astroscale must first catch up to one Read More »

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SpaceX wants to take over a Florida launch pad from rival ULA

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First step —

SpaceX now plans at least four Starship launch pads, two in Texas and two in Florida.

SpaceX's fully-stacked Starship rocket and Super Heavy booster on a launch pad in South Texas.

Enlarge / SpaceX’s fully-stacked Starship rocket and Super Heavy booster on a launch pad in South Texas.

One of the largest launch pads at Cape Canaveral Space Force Station will become vacant later this year after the final flight of United Launch Alliance’s Delta IV Heavy rocket. SpaceX is looking to make the sprawling facility a new home for the Starship launch vehicle.

The environmental review for SpaceX’s proposal to take over Space Launch Complex 37 (SLC-37) at Cape Canaveral is getting underway now, with three in-person public meetings and one virtual meeting scheduled for March to collect comments from local residents, according to a new website describing the plan.

Then federal agencies, led by the Department of the Air Force, will develop an environmental impact statement to evaluate how Starship launch and landing operations will affect the land, air, and water around SLC-37, which sits on Space Force property on the Atlantic coastline.

Environmental studies for rocket launch facilities typically take more than a year, so it will be a while before any major construction begins to convert SLC-37 for Starship launches. In this case, federal officials anticipate publishing a draft environmental impact statement by December, then a final report by October 2025.

More immediately, ULA still has one more Delta IV Heavy rocket to launch from SLC-37 in March with a classified spy satellite for the National Reconnaissance Office. Once that launch is complete, ULA will wind down operations at SLC-37, and eventually turn over the facility back to the Space Force, which will look for a new tenant. For several months, industry sources have pointed to SpaceX as the leading contender to take over SLC-37 after ULA is finished with the launch pad.

But that’s not quite a done deal yet. Last year, a senior official at ULA told Ars on background that the company was also interested in maintaining a presence at SLC-37.

ULA’s new Vulcan rocket, which debuted last month and will replace the Delta IV and Atlas V launch vehicles, uses a different launch pad a few miles up the coast from SLC-37. ULA is upgrading and expanding its ground facilities at Cape Canaveral to ramp up the Vulcan launch cadence, and the ULA official told Ars the company may want to continue using a rocket processing hangar just south of the Delta IV launch pad for storage and horizontal processing of Vulcan rockets.

Details are scarce about everything SpaceX wants to do with SLC-37, but officials wrote on the environmental review website that SpaceX would “modify, reuse, or demolish the existing SLC-37 infrastructure to support Starship-Super Heavy launch and landing operations.”

This aerial view shows a United Launch Alliance Delta IV Heavy rocket awaiting liftoff from Space Launch Complex 37 at Cape Canaveral Space Force Station, Florida.

Enlarge / This aerial view shows a United Launch Alliance Delta IV Heavy rocket awaiting liftoff from Space Launch Complex 37 at Cape Canaveral Space Force Station, Florida.

The history of SLC-37 dates back to the 1960s, when NASA used the site for eight flights of the Saturn I and Saturn IB rockets to prepare for the Apollo program. The facility sat dormant for 30 years until Boeing moved in to ready SLC-37 for the Delta IV rocket, which has now flown 34 times from SLC-37. The launch pad currently includes a 330-foot-tall (100-meter) mobile gantry, a fixed erector, a fixed umbilical tower, and a flame trench for Delta IV missions.

Starship, the world’s largest rocket, would not need any of that that infrastructure, so if SpaceX takes over the pad, the facility will likely undergo extensive demolition and construction.

If SpaceX isn’t cleared to use SLC-37, the company could build a brand new launch pad designated Space Launch Complex 50. If this is the path SpaceX takes, SLC-50 would be built on undeveloped land north of SLC-37 and south of SpaceX’s primary launch pad for the Falcon 9 rocket at Space Launch Complex 40.

Goodbye to LC-49, hello to SLC-37

SpaceX’s interest in setting up shop at SLC-37 shows the company is getting serious about developing a second base for Starship on Florida’s Space Coast. In 2022, SpaceX constructed a launch tower and launch mount for Starship at Launch Complex 39A (LC-39A), located at NASA’s Kennedy Space Center. But the company made little progress there last year as teams focused on Starship test flights from South Texas.

Elon Musk, SpaceX’s founder and CEO, says Starship is the rocket that will make possible his dream of building a settlement on Mars. He has also touted Starship as a vehicle for point-to-point travel on Earth. Both stages of Starship are designed to be fully and rapidly reusable, with the Super Heavy booster and Starship upper stage returning to Earth for propulsive landings. Starship launch pads will double as landing pads.

Before any of those dreams are realized, Starship needs to get into orbit. The first two full-scale Starship test flights last year didn’t make it that far, but SpaceX got close on the second launch in November. SpaceX hopes to achieve a near-orbital mission with the third Starship test launch, perhaps as soon as early March.

Eventually, Musk envisions Starship launching multiple times per day on a variety of missions, carrying people, satellites, cargo, or refueling tankers into orbit. In order to do this, SpaceX will need a lot of launch and landing pads. SpaceX has toyed with the idea of floating offshore launch and landing platforms, but those plans are on hold.

In the near-term, SpaceX plans to build a second Starship launch tower at the company’s Starbase test site in Cameron County, Texas. There’s also the partially-built launch tower at LC-39A, and now SpaceX has set its sights on SLC-37.

SpaceX was previously looking at building another Starship launch pad from scratch on NASA property at the Kennedy Space Center. NASA environmental studies for this location, known as Launch Complex 49, kicked off in 2021. Patti Bielling, a NASA spokesperson, told Ars on Friday the agency is no longer working on Launch Complex 49.

“At this time, there are no activities involving LC-49 on Kennedy,” Bielling said. “Any previous activities regarding LC-49 were suspended, and no actions were taken.”

One of the first operational applications for Starship will be to serve as a human-rated lunar lander for NASA’s Artemis program. SpaceX is developing a version of Starship to ferry astronauts to and from the Moon’s surface, but in order for Starship to reach the Moon, it has to be refueled in low-Earth orbit. This will require perhaps 10 or more refueling flights using a version of Starship called a tanker, all launching in a matter of weeks. Those tanker flights will launch on Super Heavy boosters from pads in Texas and Florida.

In parallel with continued Starship test flights and demonstrating in-space refueling technology, SpaceX needs to build more launch pads to make all this possible. Although SpaceX has backpedaled on several of its Starship launch pad ideas, the company’s interest in SLC-37 suggests it still has big plans for Starship in Florida.

SpaceX wants to take over a Florida launch pad from rival ULA Read More »

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Rocket Report: Falcon 9 flies for 300th time; an intriguing launch from Russia

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Co-planar —

Starship is fully stacked in South Texas for the rocket’s third test flight.

The upper stage for the first Ariane 6 flight vehicle is seen inside its factory in Bremen, Germany. The upper stage's hydrogen-fueled Vinci engine is visible in this image.

Enlarge / The upper stage for the first Ariane 6 flight vehicle is seen inside its factory in Bremen, Germany. The upper stage’s hydrogen-fueled Vinci engine is visible in this image.

Welcome to Edition 6.31 of the Rocket Report! Photographers at Cape Canaveral, Florida, noticed a change to the spaceport’s skyline this week. Blue Origin has erected a full-size simulator of its New Glenn rocket vertically on its launch pad for a series of fit checks and tests. Late last year, we reported Blue Origin was serious about getting the oft-delayed New Glenn rocket off the ground by the end of 2024. This is a good sign of progress toward that goal, but there’s a long, long way to go. It was fun to watch preparations for the inaugural flights of a few other heavy-lift rockets in the last couple of years (Starship, SLS, and Vulcan). This year, it’s New Glenn.

As always, we welcome reader submissions, and if you don’t want to miss an issue, please subscribe using the box below (the form will not appear on AMP-enabled versions of the site). Each report will include information on small-, medium-, and heavy-lift rockets, as well as a quick look ahead at the next three launches on the calendar.

Russia launches a classified satellite. On February 9, Russia launched its first orbital mission of the year with the liftoff of a Soyuz-2-1v rocket from the Plesetsk Cosmodrome in the far north of the country. The two-stage rocket delivered a classified satellite into orbit for the Russian military, Anatoly Zak of RussianSpaceWeb.com reports. In keeping with the Russian military’s naming convention, the satellite is known simply as Kosmos 2575, and there’s little indication about what it will do in space, except for one key fact.

But wait, there’s more … It turns out the launch of Kosmos 2575 occurred at exactly the same time of day as another Soyuz-2-1v rocket launched on December 27 with a Russian military satellite named Kosmos 2574. The newer spacecraft launched into the same orbital plane as Kosmos 2574, a strong indication that the two satellites have a shared mission. In recent years, Russia has tested rendezvous, proximity operations, and, at least in one instance, a projectile that would have applications for an anti-satellite weapon. You can be sure the US military and a global community of hobbyist satellite trackers will watch closely to see if these two satellites approach one another. If they do, they could continue technology demonstrations for an anti-satellite system. It’s unclear if the recent revelations regarding US officials’ concerns about Russian anti-satellite capabilities are related to these recent launches.

European startup testing methane-fueled rocket engine. Space transportation startup The Exploration Company has continued testing its methane-fueled Huracán engine, which will power an in-space and lunar transportation vehicle under development, European Spaceflight reports. Most recently, the Huracán engine completed another round of thrust chamber testing using liquid methane fuel as a coolant and tested a new thermal barrier coating. The methane/liquid oxygen engine is undergoing testing at a facility in Lampoldshausen, Germany, ahead of use on The Exploration Company’s Nyx Moon spacecraft, a transfer vehicle designed for transportation to and from cislunar space and also capable of Moon landings. The Nyx Moon is an evolution of a transfer vehicle the European startup is developing to ferry satellites between different orbits around Earth.

Other uses for Huracán… The Exploration Company appears to be positioning itself not only as a builder and operator of orbital and lunar transfer vehicles but also as a propulsion supplier to other space companies. In 2022, The Exploration Company received funding for the Huracán engine from the French government. At the time, the company described the engine as serving the needs of “the upper stages of small launchers and those of orbital vehicles.” (submitted by Ken the Bin)

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Rocket Report: Falcon 9 flies for 300th time; an intriguing launch from Russia Read More »

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SpaceX launches military satellites tuned to track hypersonic missiles

Commercial space, falcon 9, hypersonic, L3Harris, launch, missile defense, missile defense agency, Northrop Grumman, Science, Space, space development agency, spacex / /

Trackers —

These satellites will participate in joint missile tracking exercises later this year.

SpaceX launched a Falcon 9 rocket Wednesday with six missile-tracking satellites for the US military.

Enlarge / SpaceX launched a Falcon 9 rocket Wednesday with six missile-tracking satellites for the US military.

Two prototype satellites for the Missile Defense Agency and four missile tracking satellites for the US Space Force rode a SpaceX Falcon 9 rocket into orbit Wednesday from Florida’s Space Coast.

These satellites are part of a new generation of spacecraft designed to track hypersonic missiles launched by China or Russia and perhaps emerging missile threats from Iran or North Korea, which are developing their own hypersonic weapons.

Hypersonic missiles are smaller and more maneuverable than conventional ballistic missiles, which the US military’s legacy missile defense satellites can detect when they launch. Infrared sensors on the military’s older-generation missile tracking satellites are tuned to pick out bright thermal signatures from missile exhaust.

The new threat paradigm

Hypersonic missiles represent a new challenge for the Space Force and the Missile Defense Agency (MDA). For one thing, ballistic missiles follow a predictable parabolic trajectory that takes them into space. Hypersonic missiles are smaller and comparatively dim, and they spend more time flying in Earth’s atmosphere. Their maneuverability makes them difficult to track.

A nearly 5-year-old military organization called the Space Development Agency (SDA) has launched 27 prototype satellites over the last year to prove the Pentagon’s concept for a constellation of hundreds of small, relatively low-cost spacecraft in low-Earth orbit. This new fleet of satellites, which the SDA calls the Proliferated Warfighter Space Architecture (PWSA), will eventually number hundreds of spacecraft to track missiles and relay data about their flight paths down to the ground. The tracking data will provide an early warning to those targeted by hypersonic missiles and help generate a firing solution for interceptors to shoot them down.

The SDA constellation combines conventional tactical radio links, laser inter-satellite communications, and wide-view infrared sensors. The agency, now part of the Space Force, plans to launch successive generations, or tranches, of small satellites, each introducing new technology. The SDA’s approach relies on commercially available spacecraft and sensor technology and will be more resilient to attack from an adversary than the military’s conventional space assets. Those legacy military satellites often cost hundreds of millions or billions of dollars apiece, with architectures that rely on small numbers of large satellites that might appear like a sitting duck to an adversary determined to inflict damage.

Four of the small SDA satellites and two larger spacecraft for the Missile Defense Agency were aboard a SpaceX Falcon 9 rocket when it lifted off from Cape Canaveral Space Force Station at 5: 30 pm EST (2230 UTC) Wednesday.

The rocket headed northeast from Cape Canaveral to place the six payloads into low-Earth orbit. Officials from the Space Force declared the launch a success later Wednesday evening.

The SDA’s four tracking satellites, built by L3Harris, are the last spacecraft the agency will launch in its prototype constellation, called Tranche 0. Beginning later this year, the SDA plans to kick off a rapid-fire launch campaign with SpaceX and United Launch Alliance to quickly build out its operational Tranche 1 constellation, with launches set to occur at one-month intervals to deploy approximately 150 satellites. Then, there will be a Tranche 2 constellation with more advanced sensor technologies.

The primary payloads aboard Wednesday’s launch were for the MDA. These two Hypersonic and Ballistic Tracking Space Sensor (HBTSS) satellites, one supplied by L3Harris and the other by Northrop Grumman, will demonstrate medium field-of-view sensors. Those sensors can’t cover as much territory as the SDA satellites but will provide more sensitive and detailed missile tracking data.

This illustration shows how the HBTSS satellites can track hypersonic missiles as they glide and maneuver through the atmosphere, evading detection by conventional missile tracking spacecraft, such as the Space Force's DSP and SBIRS satellites.

This illustration shows how the HBTSS satellites can track hypersonic missiles as they glide and maneuver through the atmosphere, evading detection by conventional missile tracking spacecraft, such as the Space Force’s DSP and SBIRS satellites.

“Our advanced satellites on orbit will bring the integrated and resilient missile warning and defense capabilities the US requires against adversaries developing more advanced maneuverable missiles,” said Christopher Kubasik, chairman and CEO of L3Harris. “L3Harris delivered this advanced missile tracking capability on behalf of MDA and SDA on orbit in just over three years after work was authorized to proceed. We are proud to be a critical part of the new space sensing architecture.”

The HBTSS satellites, valued at more than $300 million, and the SDA’s tracking prototypes will participate in joint military exercises in the coming months, where the wide-view SDA satellites will provide “cueing data” to the MDA’s HBTSS spacecraft. The narrower field of view of the HBTSS satellites can provide more specific, target-quality data to a ground-based interceptor, according to a report last year published by the Congressional Research Service. Future tranches, or generations, of SDA satellites will incorporate the medium field-of-view sensing capability flying on the MDA’s HBTSS satellites.

With SDA taking over the responsibility for making this technology operational, that will leave the MDA, which has historically flown its own missile tracking satellites, focused on next-generation sensor development, an MDA spokesperson told Ars.

Military officials decided only last year to place the four SDA satellites on the same launch as the MDA’s HBTSS mission. With all six satellites flying in the same orbital plane, there will be opportunities to see the same targets with both types of spacecraft and sensors. These targets may include scheduled US military missile tests or foreign launches.

“The intent to be able to work with cooperative and noncooperative targets to be able to do our demonstrations,” a senior SDA official said during a background briefing.

SpaceX launches military satellites tuned to track hypersonic missiles Read More »