Blue Origin said Tuesday that the test payload for the first launch of its new rocket, New Glenn, is ready for liftoff. The company published an image of the “Blue Ring” pathfinder nestled up against one half of the rocket’s payload fairing.
“There is a growing demand to quickly move and position equipment and infrastructure in multiple orbits,” the company’s chief executive, Dave Limp, said on LinkedIn. “Blue Ring has advanced propulsion and communication capabilities for government and commercial customers to handle these maneuvers precisely and efficiently.”
This week’s announcement—historically Blue Origin has been tight-lipped about new products, but is opening up more as it nears the debut of its flagship New Glenn rocket—appears to serve a couple of purposes.
All Blue wants for Christmas is…
First of all, the relatively small payload contrasted with the size of the payload fairing highlights the greater volume the rocket offers over most conventional boosters. New Glenn’s payload fairing is 7 meters (23 feet) in diameter as opposed to the more conventional 5 meters (16.4 feet). It looks roomy inside.
Additionally, the company appears to be publicly signaling the Federal Aviation Administration and other regulatory agencies that it believes New Glenn is ready to fly, pending approval to conduct a hot fire test at Launch Complex-36, and then for a liftoff from Florida. This is a not-so-subtle message to regulators to please hurry up and complete the paperwork necessary for launch activities. It is not clear what is holding up the hot-fire and launch approval in this case, but it is often environmental issues or certification of a flight termination system.
Blue Origin’s release on Tuesday was carefully worded. The headline said New Glenn was “on track” for a launch this year and stated that the Blue Ring payload is “ready” for a launch this year. As yet there is no notional or public launch date. The hot-fire test has been delayed multiple times since the company put the rocket on its launch pad on Nov. 23. It had been targeting November for the test, and more recently, this past weekend.
After years of delays for the rocket, originally due to debut in 2020, Blue Origin founder Jeff Bezos hired a new chief executive to run the company a little more than a year ago. Limp, an executive from Amazon, was given the mandate to change Blue Origin’s slower-moving culture to be more nimble and urgent and was told to launch New Glenn by the end of 2024.
Blue Origin is getting ready to test-fire its first fully integrated New Glenn rocket in Florida.
Blue Origin’s first fully integrated New Glenn rocket rolls out to its launch pad at Cape Canaveral Space Force Station, Florida. Credit: Blue Origin
Welcome to Edition 7.21 of the Rocket Report! We’re publishing the Rocket Report a little early this week due to the Thanksgiving holiday in the United States. We don’t expect any Thanksgiving rocket launches this year, but still, there’s a lot to cover from the last six days. It seems like we’ve seen the last flight of the year by SpaceX’s Starship rocket. A NASA filing with the Federal Aviation Administration requests approval to fly an aircraft near the reentry corridor over the Indian Ocean for the next Starship test flight. The application suggests the target launch date is January 11, 2025.
As always, we welcome reader submissions. 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.
Another grim first in Ukraine. For the first time in warfare, Russia launched an Intermediate Range Ballistic Missile against a target in Ukraine, Ars reports. This attack on November 21 followed an announcement from Russian President Vladimir Putin earlier the same week that the country would change its policy for employing nuclear weapons in conflict. The IRBM, named Oreshnik, is the longest-range weapon ever used in combat in Europe, and could be refitted to carry nuclear warheads on future strikes.
Putin’s rationale … Putin says his ballistic missile attack on Ukraine is a warning to the West after the US and UK governments approved Ukraine’s use of Western-supplied ATACMS and Storm Shadow tactical ballistic missiles against targets on Russian territory. The Russian leader said his forces could attack facilities in Western countries that supply weapons for Ukraine to use on Russian territory, continuing a troubling escalatory ladder in the bloody war in Eastern Europe. Interestingly, this attack has another rocket connection. The target was apparently a factory in Dnipro that, not long ago, produced booster stages for Northrop Grumman’s Antares rocket.
Blue Origin hops again. Blue Origin launched its ninth suborbital human spaceflight over West Texas on November 22, CollectSpace reports. Six passengers rode the company’s suborbital New Shepard booster to the edge of space, reaching an altitude of 347,661 feet (65.8 miles or 106 kilometers), flying 3 miles (4.8 km) above the Kármán line that serves as the internationally-accepted border between Earth’s atmosphere and outer space. The pressurized capsule carrying the six passengers separated from the booster, giving them a taste of microgravity before parachuting back to Earth.
Dreams fulfilled … These suborbital flights are getting to be more routine, and may seem insignificant compared to Blue Origin’s grander ambitions of flying a heavy-lift rocket and building a human-rated Moon lander. However, we’ll likely have to wait many years before truly routine access to orbital flights becomes available for anyone other than professional astronauts or multimillionaires. This means tickets to ride on suborbital spaceships from Blue Origin or Virgin Galactic are currently the only ways to get to space, however briefly, for something on the order of $1 million or less. That puts the cost of one of these seats within reach for hundreds of thousands of people, and within the budgets of research institutions and non-profits to fund a flight for a scientist, student, or a member of the general public. The passengers on the November 22 flight included Emily Calandrelli, known online as “The Space Gal,” an engineer, Netflix host, and STEM education advocate who became the 100th woman to fly to space. (submitted by Ken the Bin)
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Rocket Lab flies twice in one day. Two Electron rockets took flight Sunday, one from New Zealand’s Mahia Peninsula and the other from Wallops Island, Virginia, making Rocket Lab the first commercial space company to launch from two different hemispheres in a 24-hour period, Payload reports. One of the missions was the third of five launches for the French Internet of Things company Kinéis, which is building a satellite constellation. The other launch was an Electron modified to act as a suborbital technology demonstrator for hypersonic research. Rocket Lab did not disclose the customer, but speculation is focused on the defense contractor Leidos, which signed a four-launch deal with Rocket Lab last year.
Building cadence … SpaceX first launched two Falcon 9 rockets in 24 hours in 2021. This year, the company launched three Falcon 9s in a single day from pads at Cape Canaveral Space Force Station, Florida, and Vandenberg Space Force Base, California. Rocket Lab has now launched 14 Electron rockets this year, more than any other Western company other than SpaceX. “Two successful launches less than 24 hours apart from pads in different hemispheres. That’s unprecedented capability in the small launch market and one we’re immensely proud to deliver at Rocket Lab,” said Peter Beck, the company’s founder and CEO. (submitted by Ken the Bin)
Italy to reopen offshore launch site. An Italian-run space center located in Kenya will once again host rocket launches from an offshore launch platform, European Spaceflight reports. The Italian minister for enterprises, Adolfo Urso, recently announced that the country decided to move ahead with plans to again launch rockets from the Luigi Broglio Space Center near Malindi, Kenya. “The idea is to give a new, more ambitious mission to this base and use it for the launch of low-orbit microsatellites,” Urso said.
Decades of dormancy … Between 1967 and 1988, the Italian government and NASA partnered to launch nine US-made Scout rockets from the Broglio Space Center to place small satellites into orbit. The rockets lifted off from the San Marco platform, a converted oil platform in equatorial waters off the Kenyan coast. Italian officials have not said what rocket might be used once the San Marco platform is reactivated, but Italy is the leading contributor on the Vega C rocket, a solid-fueled launcher somewhat larger than the Scout. Italy will manage the reactivation of the space center, which has remained in service as a satellite tracking station, under the country’s Mattei Plan, an initiative aimed at fostering stronger economic partnerships with African nations. (submitted by Ken the Bin)
SpaceX flies same rocket twice in two weeks. Less than 14 days after its previous flight, a Falcon 9 booster took off again from Florida’s Space Coast early Monday to haul 23 more Starlink internet satellites into orbit, Spaceflight Now reports. The booster, numbered B1080 in SpaceX’s fleet of reusable rockets, made its 13th trip to space before landing on SpaceX’s floating drone ship in the Atlantic Ocean. The launch marked a turnaround of 13 days, 12 hours, and 44 minutes from this booster’s previous launch November 11, also with a batch of Starlink satellites. The previous record turnaround time between flights of the same Falcon 9 booster was 21 days.
400 and still going … SpaceX’s launch prior to this one was on Saturday night, when a Falcon 9 carried a set of Starlinks aloft from Vandenberg Space Force Base, California. The flight Saturday night was the 400th launch of a Falcon 9 rocket since 2010, and SpaceX’s 100th launch from the West Coast. (submitted by Ken the Bin)
Chinese firm launches upgraded rocket. Chinese launch startup LandSpace put two satellites into orbit late Tuesday with the first launch of an improved version of the Zhuque-2 rocket, Space News reports. The enhanced rocket, named the Zhuque-2E, replaces vernier steering thrusters with a thrust vector control system on the second stage engine, saving roughly 880 pounds (400 kilograms) in mass. The Zhuque-2E rocket is capable of placing a payload of up to 8,800 pounds (4,000 kilograms) into a polar Sun-synchronous orbit, according to LandSpace.
LandSpace in the lead … Founded in 2015, LandSpace is a leader among China’s crop of quasi-commercial launch startups. The company hasn’t launched as often as some of its competitors, but it became the first launch operator in the world to successfully reach orbit with a methane/liquid oxygen (methalox) rocket last year. Now, LandSpace has improved on its design to create the Zhuque-2E rocket, which also has a large niobium allow nozzle extension on the second stage engine for reduced weight. LandSpace also claims the Zhuque-2E is China’s first rocket to use fully supercooled propellant loading, similar to the way SpaceX loads densified propellants into its rockets to achieve higher performance. (submitted by Ken the Bin)
NASA taps Falcon Heavy for another big launch. A little more than a month after SpaceX launched NASA’s flagship Europa Clipper mission on a Falcon Heavy rocket, the space agency announced its next big interplanetary probe will also launch on a Falcon Heavy, Ars reports. What’s more, the Dragonfly mission the Falcon Heavy will launch in 2028 is powered by a plutonium power source. This will be the first time SpaceX launches a rocket with nuclear materials onboard, requiring an additional layer of safety certification by NASA. The agency’s most recent nuclear-powered spacecraft have all launched on United Launch Alliance Atlas V rockets, which are nearing retirement.
The details … Dragonfly is one of the most exciting robotic missions NASA has ever developed. The mission is to send an automated rotorcraft to explore Saturn’s largest moon, Titan, where Dragonfly will soar through a soupy atmosphere in search of organic molecules, the building blocks of life. It’s a hefty vehicle, about the size of a compact car, and much larger than NASA’s Ingenuity Mars helicopter. The launch period opens July 5, 2028, to allow Dragonfly to reach Titan in 2034. NASA is paying SpaceX $256.6 million to launch the mission on a Falcon Heavy. (submitted by Ken the Bin)
New Glenn is back on the pad. Blue Origin has raised its fully stacked New Glenn rocket on the launch pad at Cape Canaveral Space Force Station ahead of pre-launch testing, Florida Today reports. The last time this new 322-foot-tall (98-meter) rocket was visible to the public eye was in March. Since then, Blue Origin has been preparing the rocket for its inaugural launch, which could yet happen before the end of the year. Blue Origin has not announced a target launch date.
But first, more tests … Blue Origin erected the New Glenn rocket vertical on the launch pad earlier this year for ground tests, but this is the first time a flight-ready (or close to it) New Glenn has been spotted on the pad. This time, the first stage booster has its full complement of seven methane-fueled BE-4 engines. Before the first flight, Blue Origin plans to test-fire the seven BE-4 engines on the pad and conduct one or more propellant loading tests to exercise the launch team, the rocket, and ground systems before launch day.
Second Ariane 6 incoming. ArianeGroup has confirmed that the first and second stages for the second Ariane 6 flight have begun the transatlantic voyage from Europe to French Guiana aboard the sail-assisted transport ship Canopée, European Spaceflight reports. The second Ariane 6 launch, previously targeted before the end of this year, has now been delayed to no earlier than February 2025, according to Arianespace, the rocket’s commercial operator. This follows a mostly successful debut launch in July.
An important passenger … While the first Ariane 6 launch carried a cluster of small experimental satellites, the second Ariane 6 rocket will carry a critical spy satellite into orbit for the French armed forces. Shipping the core elements of the second Ariane 6 to the launch site in Kourou, French Guiana, is a significant step in the launch campaign. Once in Kourou, the stages will be connected together and rolled out to the launch pad, where technicians will install two strap-on solid rocket boosters and the payload fairing containing France’s CSO-3 military satellite.
Next three launches
Nov. 29: Soyuz-2.1a | Kondor-FKA 2 | Vostochny Cosmodrome, Russia | 21: 50 UTC
Nov. 30: Falcon 9 | Starlink 6-65 | Cape Canaveral Space Force Station, Florida | 05: 00 UTC
Nov. 30: Falcon 9 | NROL-126 | Vandenberg Space Force Base, California | 08: 08 UTC
Stephen Clark is a space reporter at Ars Technica, covering private space companies and the world’s space agencies. Stephen writes about the nexus of technology, science, policy, and business on and off the planet.
“The vehicle’s max design gimbal condition is during ascent when it has to fight high-altitude winds.”
Blue Origin’s first New Glenn rocket, with seven BE-4 engines installed inside the company’s production facility near NASA’s Kennedy Space Center in Florida. Credit: Blue Origin
Welcome to Edition 7.17 of the Rocket Report! Next week marks 10 years since one of the more spectacular launch failures of this century. On October 28, 2014, an Antares rocket, then operated by Orbital Sciences, suffered an engine failure six seconds after liftoff from Virginia and crashed back onto the pad in a fiery twilight explosion. I was there and won’t forget seeing the rocket falter just above the pad, being shaken by the deafening blast, and then running for cover. The Antares rocket is often an afterthought in the space industry, but it has an interesting backstory touching on international geopolitics, space history, and novel engineering. Now, Northrop Grumman and Firefly Aerospace are developing a new version of Antares.
As always, we welcome reader submissions. 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.
Astra gets a lifeline from DOD. Astra, the launch startup that was taken private again earlier this year for a sliver of its former value, has landed a new contract with the Defense Innovation Unit (DIU) to support the development of a next-gen launch system for time-sensitive space missions, TechCrunch reports. The contract, which the DIU awarded under its Novel Responsive Space Delivery (NRSD) program, has a maximum value of $44 million. The money will go toward the continued development of Astra’s Launch System 2, designed to perform rapid, ultra-low-cost launches.
Guarantees? … It wasn’t clear from the initial reporting how much money DIU is actually committing to Astra, which said the contract will fund continued development of Launch System 2. Launch System 2 includes a small-class launch vehicle with a similarly basic name, Rocket 4, and mobile ground infrastructure designed to be rapidly set up at austere spaceports. Adam London, founder and chief technology officer at Astra, said the contract award is a “major vote of confidence” in the company. If Astra can capitalize on the opportunity, this would be quite a remarkable turnaround. After going public at an initial valuation of $2.1 billion, or $12.90 per share, Astra endured multiple launch failures with its previous rocket and risked bankruptcy before the company’s co-founders, Chris Kemp and Adam London, took the company private again this year at a price of just $0.50 per share. (submitted by Ken the Bin and EllPeaTea)
Blue Origin debuts a new New Shepard. Jeff Bezos’ Blue Origin space venture successfully sent a brand-new New Shepard rocket ship on an uncrewed shakedown cruise Wednesday, with the aim of increasing the company’s capacity to take people on suborbital space trips, GeekWire reports. The capsule, dubbed RSS Karman Line, carried payloads instead of people when it lifted off from Blue Origin’s Launch Site One in West Texas. But if all the data collected during the 10-minute certification flight checks out, it won’t be long before crews climb aboard for similar flights.
Now there are two … With this week’s flight, Blue Origin now has two human-rated suborbital capsules in its fleet, along with two boosters. This should allow the company to ramp up the pace of its human missions, which have historically flown at a cadence of about one flight every two to three months. The new capsule, named for the internationally recognized boundary of space 62 miles (100 kilometers) above Earth, features upgrades to improve performance and ease reusability. (submitted by Ken the Bin and EllPeaTea)
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China has a new space tourism company. Chinese launch startup Deep Blue Aerospace targets providing suborbital tourism flights starting in 2027, Space News reports. The company was already developing a partially reusable orbital rocket named Nebula-1 for satellite launches and recently lost a reusable booster test vehicle during a low-altitude test flight. While Deep Blue moves forward with more Nebula-1 testing before its first orbital launch, the firm is now selling tickets for rides to suborbital space on a six-person capsule. The first two tickets were expected to be sold Thursday in a promotional livestream event.
Architectural considerations … Deep Blue has a shot at becoming China’s first space tourism company and one of only a handful in the world, joining US-based Blue Origin and Virgin Galactic in the market for suborbital flights. Deep Blue’s design will be a single-stage reusable rocket and crew capsule, similar to Blue Origin’s New Shepard, capable of flying above the Kármán line and providing up to 10 minutes of microgravity experience for its passengers before returning to the ground. A ticket, presumably for a round trip, will cost about $210,000. (submitted by Ken the Bin)
France’s space agency aims to launch a FROG. French space agency CNES will begin flight testing a small reusable rocket demonstrator called FROG-H in 2025, European Spaceflight reports. FROG is a French acronym that translates to Rocket for GNC demonstration, and its purpose is to test landing algorithms for reusable launch vehicles. CNES manages the program in partnership with French nonprofits and universities. At 11.8 feet (3.6 meters) tall, FROG is the smallest launch vehicle prototype at CNES, which says it will test concepts and technologies at small scale before incorporating them into Europe’s larger vertical takeoff/vertical landing test rockets like Callisto and Themis. Eventually, the idea is for all this work to lead to a reusable European orbital-class rocket.
Building on experience … CNES flew a jet-powered demonstrator named FROG-T on five test flights beginning in May 2019, reaching a maximum altitude of about 100 feet (30 meters). FROG-H will be powered by a hydrogen peroxide rocket engine developed by the Łukasiewicz Institute of Aviation in Poland under a European Space Agency contract. The first flights of FROG-H are scheduled for early 2025. The structure of the FROG project seeks to “break free from traditional development methods” by turning to “teams of enthusiasts” to rapidly develop and test solutions through an experimental approach, CNES says on its website. (submitted by EllPeaTea and Ken the Bin)
Falcon 9 sweeps NSSL awards. The US Space Force’s Space Systems Command announced on October 18 it has ordered nine launches from SpaceX in the first batch of dozens of missions the military will buy in a new phase of competition for lucrative national security launch contracts, Ars reports. The parameters of the competition limited the bidders to SpaceX and United Launch Alliance (ULA). SpaceX won both task orders for a combined value of $733.5 million, or roughly $81.5 million per mission. Six of the nine missions will launch from Vandenberg Space Force Base, California, beginning as soon as late 2025. The other three will launch from Cape Canaveral Space Force Station, Florida.
Head-to-head … This was the first set of contract awards by the Space Force’s National Security Space Launch (NSSL) Phase 3 procurement round and represents one of the first head-to-head competitions between SpaceX’s Falcon 9 and ULA’s Vulcan rocket. The nine launches were divided into two separate orders, and SpaceX won both. The missions will deploy payloads for the National Reconnaissance Office and the Space Development Agency. (submitted by Ken the Bin)
SpaceX continues deploying NRO megaconstellation. SpaceX launched more surveillance satellites for the National Reconnaissance Office Thursday aboard a Falcon 9 rocket, Spaceflight Now reports. While the secretive spy satellite agency did not identify the number or exact purpose of the satellites, the Falcon 9 likely deployed around 20 spacecraft believed to be based on SpaceX’s Starshield satellite bus, a derivative of the Starlink spacecraft platform, with participation from Northrop Grumman. These satellites host classified sensors for the NRO. This is the fourth SpaceX launch for the NRO’s new satellite fleet, which seeks to augment the agency’s bespoke multibillion-dollar spy satellites with a network of smaller, cheaper, more agile platforms in low-Earth orbit.
The century mark … This mission, officially designated NROL-167, was the 100th flight of a Falcon 9 rocket this year and the 105th SpaceX launch overall in 2024. The NRO has not said how many satellites will make up its fleet when completed, but the intelligence agency says it will be the US government’s largest satellite constellation in history. By the end of the year, the NRO expects to have 100 or more of these satellites in orbit, allowing the agency to transition from a demonstration mode to an operational mode to deliver intelligence data to military and government users. Many more launches are expected through 2028. (submitted by Ken the Bin)
ULA is stacking its third Vulcan rocket. United Launch Alliance has started assembling its next Vulcan rocket—the first destined to launch a US military payload—as the Space Force prepares to certify it to loft the Pentagon’s most precious national security satellites, Ars reports. Space Force officials expect to approve ULA’s Vulcan rocket for military missions without requiring another test flight, despite an unusual problem on the rocket’s second demonstration flight earlier this month, when one of Vulcan’s two strap-on solid-fueled boosters lost its nozzle shortly after liftoff.
Pending certification … Despite the nozzle failure, the Vulcan rocket continued climbing into space and eventually reached its planned injection orbit, and the Space Force and ULA declared the test flight a success. Still, engineers want to understand what caused the nozzle to break apart and decide on corrective actions before the Space Force clears the Vulcan rocket to launch a critical national security payload. This could take a little longer than expected due to the booster problem, but Space Force officials still hope to certify the Vulcan rocket in time to support a national security launch by the end of the year.
Blue Origin’s first New Glenn has all its engines. Blue Origin published a photo Thursday on X showing all seven first-stage BE-4 engines installed on the base of the company’s first New Glenn rocket. This is a notable milestone as Blue Origin proceeds toward the first launch of the heavy-lifter, possibly before the end of the year. But there’s a lot of work for Blue Origin to accomplish before then. These steps include rolling the rocket to the launch pad, running through propellant loading tests and practice countdowns, and then test-firing all seven BE-4 engines on the pad at Cape Canaveral Space Force Station, Florida.
Seven for seven … The BE-4 engines will consume methane fuel mixed with liquid oxygen for the first few minutes of the New Glenn flight, generating more than 3.8 million pounds of combined thrust. The seven BE-4s on New Glenn are similar to the BE-4 engines that fly two at a time on ULA’s Vulcan rocket. Dave Limp, Blue Origin’s CEO, said three of the seven engines on the New Glenn first stage have thrust vector control capability to provide steering during launch, reentry, and landing on the company’s offshore recovery vessel. “That gimbal capability, along with the landing gear and Reaction Control System thrusters, are key to making our booster fully reusable,” Limp wrote on X. “Fun fact: The vehicle’s max design gimbal condition is during ascent when it has to fight high-altitude winds.”
Next Super Heavy booster test-fired in Texas. SpaceX fired up the Raptor engines on its next Super Heavy booster, numbered Booster 13, Thursday evening at the company’s launch site in South Texas. This happened just 11 days after SpaceX launched and caught the Super Heavy booster on the previous Starship test flight and signals SpaceX could be ready for the next Starship test flight sometime in November. SpaceX has already test-fired the Starship upper stage for the next flight.
Great expectations … We expect the next Starship flight, which will be program’s sixth full-scale demo mission, will include another booster catch back at the launch tower at Starbase, Texas. SpaceX may also attempt to reignite a Raptor engine on the Starship upper stage while it is in space, demonstrating the capability to steer itself back into the atmosphere on future flights. So far, SpaceX has only launched Starships on long, arcing suborbital trajectories that carry the vehicle halfway around the world before reentry. In order to actually launch a Starship into a stable orbit around Earth, SpaceX will want to show it can bring the vehicle back so it doesn’t reenter the atmosphere in an uncontrolled manner. An uncontrolled reentry of a large spacecraft like Starship could pose a public safety risk.
Next three launches
Oct. 26: Falcon 9 | Starlink 10-8 | Cape Canaveral Space Force Station, Florida | 21: 47 UTC
Oct. 29: Falcon 9 | Starlink 9-9 | Vandenberg Space Force Base, California | 11: 30 UTC
Oct. 30: H3 | Kirameki 3 | Tanegashima Space Center, Japan | 06: 46 UTC
Stephen Clark is a space reporter at Ars Technica, covering private space companies and the world’s space agencies. Stephen writes about the nexus of technology, science, policy, and business on and off the planet.
Enlarge/ Landspace’s reusable rocket test vehicle lifts off from the Jiuquan Satellite Launch Center on Wednesday, September 11, 2024.
Welcome to Edition 7.11 of the Rocket Report! Outside of companies owned by American billionaires, the most imminent advancements in reusable rockets are coming from China’s quasi-commercial launch industry. This industry is no longer nascent. After initially relying on solid-fueled rocket motors apparently derived from Chinese military missiles, China’s privately funded launch firms are testing larger launchers, with varying degrees of success, and now performing hop tests reminiscent of SpaceX’s Grasshopper and F9R Dev1 programs more than a decade ago.
As always, we welcome reader submissions. 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.
Landspace hops closer to a reusable rocket. Chinese private space startup Landspace has completed a 10-kilometer (33,000-foot) vertical takeoff and vertical landing test on its Zhuque-3 (ZQ-3) reusable rocket testbed, including a mid-flight engine reignition at near supersonic conditions, Aviation Week & Space Technology reports. The 18.3-meter (60-foot) vehicle took off from the Jiuquan launch base in northwestern China, ascended to 10,002 meters, and then made a vertical descent and achieved an on-target propulsive landing 3.2 kilometers (2 miles) from the launch pad. Notably, the rocket’s methane-fueled variable-thrust engine intentionally shutdown in flight, then reignited for descent, as engines would operate on future full-scale booster flybacks. The test booster used grid fins and cold gas thrusters to control itself when its main engine was dormant, according to Landspace.
“All indicators met the expected design” … Landspace hailed the test as a major milestone in the company’s road to flying its next rocket, the Zhuque-3, as soon as next year. With nine methane-fueled main engines, the Zhuque-3 will initially be able to deliver 21 metric tons (46,300 pounds) of payload into low-Earth orbit with its booster flying in expendable mode. In 2026, Landspace aims to begin recovering Zhuque-3 first-stage boosters for reuse. Landspace is one of several Chinese companies working seriously on reusable rocket designs. Another Chinese firm, Deep Blue Aerospace, says it plans a 100-kilometer (62-mile) suborbital test of a reusable booster soon, ahead of the first flight of its medium-class Nebula-1 rocket next year. (submitted by Ken the Bin)
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Isar Aerospace sets low bar for success on first launch. Daniel Metzler, CEO of German launch startup Isar Aerospace, stated that the first flight of the Spectrum rocket would be a success if it didn’t destroy the launch site, European Spaceflight reports. During an interview at the Handelsblatt innovation conference, Metzler was asked what he would consider a successful inaugural flight of Spectrum. “For me, the first flight will be a success if we don’t blow up the launch site,” explained Metzler. “That would probably be the thing that would set us back the most in terms of technology and time.” This tempering of expectations sounds remarkably similar to statements made by Elon Musk about SpaceX’s first flight of the Starship rocket last year.
In the catbird seat? … Isar Aerospace could be in a position to become the first in a new crop of European commercial launch companies to attempt its first orbital flight. Another German company, Rocket Factory Augsburg, recently gave up on a possible launch this year after the booster for its first launch caught fire and collapsed during a test at a launch site in Scotland. Isar plans to launch its two-stage Spectrum rocket, designed to carry up to 1,000 kilograms (2,200 pounds) of payload into low-Earth orbit, from Andøya Spaceport in Norway. Isar hasn’t publicized any schedule for the first flight of Spectrum, but there are indications the publicity-shy company is testing hardware at the Norwegian spaceport. (submitted by Ken the Bin)
FAA to introduce new orbital debris rules. The Federal Aviation Administration is moving ahead with efforts to develop rules for the disposal of upper stages as another Centaur upper stage breaks apart in orbit, Space News reports. The FAA released draft regulations on the matter for public comment one year ago, and the head of the agency’s commercial spaceflight division recently said the rules are a “high priority for our organization.” The rules would direct launch operators to dispose of upper stages in one of five ways, from controlled reentries to placement in graveyard or “disposal” orbits not commonly used by operational satellites. One change the FAA might make to the draft rules is to reduce the required timeline for an uncontrolled reentry of a disposed upper stage from no more than 25 years to a shorter timeline. “We got a lot of comments that said it should be a lot less,” said Kelvin Coleman, head of the FAA’s commercial spaceflight office. “We’re taking that into consideration.”
Upper stages are a problem … Several recent breakups involving spent upper stages in orbit have highlighted the concern that dead rocket bodies could create unnecessary space junk. Last month, the upper stage from a Chinese Long March 6A disintegrated in low-Earth orbit, creating at least 300 pieces of space debris. More recently, a Centaur upper stage from a United Launch Alliance Atlas V rocket broke apart in a much higher orbit, resulting in more than 40 pieces of debris. This was the fourth time one of ULA’s Centaur upper stages has broken up since 2018. (submitted by Ken the Bin)
Enlarge/ The second stage of the New Glenn rocket rolled to the launch site this week.
Blue Origin
NASA and Blue Origin announced Friday that they have agreed to delay the launch of the ESCAPADE mission to Mars until at least the spring of 2025.
The decision to stand down from a launch attempt in mid-October was driven by a deadline to begin loading hypergolic propellant on the two small ESCAPADE (Escape and Plasma Acceleration and Dynamics Explorers) spacecraft. While it is theoretically possible to offload fuel from these vehicles for a future launch attempt, multiple sources told Ars that such an activity would incur significant risk to the spacecraft.
Forced to make a call on whether to fuel, NASA decided not to. Although the two spacecraft were otherwise ready for launch, it was not clear the New Glenn rocket would be similarly ready to go.
Waiting on the rocket
NASA procured the debut launch of the New Glenn rocket, which was developed by Blue Origin, for a significant discount. The mission’s managers, University of California, Berkeley’s Space Sciences Laboratory, always understood there were timeline risks with launching on New Glenn.
Blue Origin appears to have worked with some urgency this year to prepare the massive rocket for its initial launch. However, when the company missed a key target of hot firing the rocket’s upper stage by the end of August, NASA delayed fueling of the ESCAPADE mission. Now, with the closing of a Mars launch window next month, NASA will not fuel the spacecraft until next spring, at the earliest.
Founded by Amazon’s Jeff Bezos, Blue Origin successfully rolled the New Glenn second stage to its launch pad at Launch Complex-36 in Florida on Tuesday. The company is now targeting Monday, September 9, for a hot fire test of the second stage.
At the same time, preparations for the rocket’s first stage are nearing completion. All seven of the rocket’s BE-7 engines have arrived at the launch site following acceptance testing. Engineers and technicians are presently attaching the engines to the first stage of the vehicle.
Blue Origin will now pivot to launching a prototype of its Blue Ring transfer vehicle on the debut launch of New Glenn, with the intent of testing the electronics, avionics, and other systems on the vehicle. Blue Origin is targeting the first half of November for this launch. This test flight will also serve as the first of three “certification” flights for New Glenn, which will allow the vehicle to become eligible to carry national security payloads for the US Space Force.
A sense of urgency
It’s nearly been a year since Bezos tapped a former Amazon executive, Dave Limp, to lead Blue Origin. Bezos tasked the company’s new chief executive with injecting a sense of purpose toward getting New Glenn flying as soon as possible. Bezos has made a launch this year a high priority.
In an email to Blue Origin employees on Friday, Limp expressed that sense of urgency.
“We can’t take our foot off the pedal here,” Limp wrote. “Everyone’s work to get us to NG-1 flight this year is critical and I’m so appreciative of everyone’s relentless dedication to make this happen.”
As for ESCAPADE, the mission could launch in the spring of 2025. Although the “Mars window” only opens every 18 to 24 months, there are complex trajectories by which a payload launched in the spring of 2025 could reach the red planet. It’s also possible that NASA and Blue Origin could ultimately wait until the next Mars window opens in November 2026 to launch the mission.
Enlarge/ Image of the New Glenn second stage on its mobile test stand.
Blue Origin
Blue Origin plans to enter the final phase of its launch preparations for the New Glenn rocket on Monday by rolling the vehicle’s second stage to Launch Complex 36 in Florida. Pending weather and other final considerations, a rollout could occur as early as Monday afternoon.
This is the flight version of the vehicle, with the exception of a fixed adaptor for weather protection during a test campaign. The launch company is targeting a hot fire test of the upper stage, which is powered by two BE-3U engines, within the next week or so.
The launch company, founded by Amazon’s Jeff Bezos, is closing in on the debut launch of the massive New Glenn rocket, which will be one of the most powerful launch vehicles in the world. With a fully reusable first stage, New Glenn has a lift capacity of 45 metric tons to low-Earth orbit.
A tight launch window
NASA has contracted with Blue Origin for the first launch of New Glenn, seeking to boost two relatively small spacecraft to Mars. These ESCAPADE orbiters have a tight launch window, from October 13 to October 21. Managed by the Space Sciences Laboratory at the University of California, Berkeley, the ESCAPADE spacecraft will analyze the Martian magnetic field.
It is an open question as to whether Blue Origin can integrate, test, and launch ESCAPADE within the launch window, which opens in less than six weeks. Between now and then the company must successfully test fire the second stage, and then roll the first stage out to the company’s facilities at the Cape Canaveral launch complex.
The company’s plan is to mate the second and first stages of the rocket, and add the payload fairing with the spacecraft inside of it, before conducting a short hot fire test of the first stage. If all goes well, Blue Origin plans to attempt a launch during the October window for ESCAPADE. These spacecraft arrived at the company’s launch facilities a couple of weeks ago.
This seems like an ambitious timeline for the new rocket, as final integration of stages is often where issues are discovered with new launch vehicles. However, Blue Origin has found a new sense or urgency under chief executive Dave Limp, who joined the company in December—hence the frenetic activity with the second stage over the Labor Day holiday weekend in the United States.
The road to commercial heavy lift
Limp led devices and services at Amazon for more than a decade, which included oversight of the Project Kuiper satellite project. In his nine months at Blue Origin, he has prioritized completion and launch of the New Glenn rocket amid a large portfolio of projects at the company.
New Glenn will join SpaceX’s Falcon Heavy and Starship rockets as privately developed, heavy lift rockets. Its debut will confirm the trend in US spaceflight toward commercial developed large rockets that can be reused. Both Bezos and SpaceX founder Elon Musk have identified lower cost, rapidly reusable rockets as a key to expanding human activity in outer space. Bezos would like to see mining and other destructive industrial activities moved off world in order to preserve the natural vitality of Earth.
Whether it launches ESCAPADE next month, or some other payload on its debut flight after October, New Glenn will attempt an ambitious drone ship landing of the first stage on its debut launch. Success is unlikely—SpaceX did not manage to land its first Falcon 9 at sea until the 23rd launch of this rocket.
However, Bezos and Blue Origin are determined to gather all of the data possible from New Glenn’s initial flight in order to reach reusability of the larger booster as soon as possible. The attempt, whether successful or not, should make for compelling viewing.
Enlarge/ The two spacecraft for NASA’s ESCAPADE mission at Rocket Lab’s factory in Long Beach, California.
Two NASA spacecraft built by Rocket Lab are on the road from California to Florida this weekend to begin preparations for launch on Blue Origin’s first New Glenn rocket.
These two science probes must launch between late September and mid-October to take advantage of a planetary alignment between Earth and Mars that only happens once every 26 months. NASA tapped Blue Origin, Jeff Bezos’ space company, to launch the Escape and Plasma Acceleration and Dynamics Explorers (ESCAPADE) mission with a $20 million contract.
Last November, the space agency confirmed the $79 million ESCAPADE mission will launch on the inaugural flight of Blue Origin’s New Glenn rocket. With this piece of information, the opaque schedule for Blue Origin’s long-delayed first New Glenn mission suddenly became more clear.
The launch period opens on September 29. The two identical Mars-bound spacecraft for the ESCAPADE mission, nicknamed Blue and Gold, are now complete. Rocket Lab announced Friday that its manufacturing team packed the satellites and shipped them from their factory in Long Beach, California. Over the weekend, they arrived at a clean room facility just outside the gates of NASA’s Kennedy Space Center in Florida, where technicians will perform final checkups and load hydrazine fuel into both spacecraft, each a little more than a half-ton in mass.
Then, if Blue Origin is ready, ground teams will connect the ESCAPADE spacecraft with the New Glenn’s launch adapter, encapsulate the probes inside the payload fairing, and mount them on top of the rocket.
“There’s a whole bunch of checking and tests to make sure everything’s OK, and then we move into fueling, and then we integrate with the launch vehicle. So it’s a big milestone,” said Rob Lillis, the mission’s lead scientist from the University of California Berkeley’s Space Science Laboratory. “There have been some challenges along the way. This wasn’t easy to make happen on this schedule and for this cost. So we’re very happy to be where we are.”
Racing to the finish line
But there’s a lot for Blue Origin to accomplish in the next couple of months if the New Glenn rocket is going to be ready to send the ESCAPADE mission toward Mars in this year’s launch period. Blue Origin has not fully exercised a New Glenn rocket during a launch countdown, hasn’t pumped a full load of cryogenic propellants into the launch vehicle, and hasn’t test-fired a full complement of first stage or second stage engines.
These activities typically take place months before the first launch of a large new orbital-class rocket. For comparison, SpaceX test-fired its first fully assembled Falcon 9 rocket on the launch pad about three months before its first flight in 2010. United Launch Alliance completed a hot-fire test of its new Vulcan rocket on the launch pad last year, about seven months before its inaugural flight.
However, Blue Origin is making visible progress toward the first flight of New Glenn, after years of speculation and few outward signs of advancement. Earlier this year, the company raised a full-scale, 320-foot-tall (98-meter) New Glenn rocket on its launch pad at Cape Canaveral Space Force Station and loaded it with liquid nitrogen, a cryogenic substitute for the methane and liquid hydrogen fuel it will burn in flight.
Enlarge/ Four kerosene-fueled Reaver engines power Firefly’s Alpha rocket off the pad at Vandenberg Space Force Base, California.
Welcome to Edition 7.01 of the Rocket Report! We’re compiling this week’s report a day later than usual due to the Independence Day holiday. Ars is beginning its seventh year publishing this weekly roundup of rocket news, and there’s a lot of it this week despite the holiday here in the United States. Worldwide, there were 122 launches that flew into Earth orbit or beyond in the first half of 2024, up from 91 in the same period last year.
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.
Firefly launches its fifth Alpha flight. Firefly Aerospace placed eight CubeSats into orbit on a mission funded by NASA on the first flight of the company’s Alpha rocket since an upper stage malfunction more than half a year ago, Space News reports. The two-stage Alpha rocket lifted off from Vandenberg Space Force Base in California late Wednesday, two days after an issue with ground equipment aborted liftoff just before engine ignition. The eight CubeSats come from NASA centers and universities for a range of educational, research, and technology demonstration missions. This was the fifth flight of Firefly’s Alpha rocket, capable of placing about a metric ton of payload into low-Earth orbit.
Anomaly resolution … This was the fifth flight of an Alpha rocket since 2021 and the fourth Alpha flight to achieve orbit. But the last Alpha launch in December failed to place its Lockheed Martin payload into the proper orbit due to a problem during the relighting of its second-stage engine. On this week’s launch, Alpha deployed its NASA-sponsored payloads after a single burn of the second stage, then completed a successful restart of the engine for a plane change maneuver. Engineers traced the problem on the last Alpha flight to a software error. (submitted by Ken the Bin)
Two companies added to DoD’s launch pool. Blue Origin and Stoke Space Technologies — neither of which has yet reached orbit — have been approved by the US Space Force to compete for future launches of small payloads, Breaking Defense reports. Blue Origin and Stoke Space join a roster of launch companies eligible to compete for launch task orders the Space Force puts up for bid through the Orbital Services Program-4 (OSP-4) contract. Under this contract, Space Systems Command buys launch services for payloads 400 pounds (180 kilograms) or greater, enabling launch from 12 to 24 months of the award of a task order. The OSP-4 contract has an “emphasis on small orbital launch capabilities and launch solutions for Tactically Responsive Space mission needs,” said Lt. Col. Steve Hendershot, chief of Space Systems Command’s small launch and targets division.
An even dozen … Blue Origin aims to launch its orbital-class New Glenn rocket for the first time as soon as late September, while Stoke Space aims to fly its Nova rocket on an orbital test flight next year. The addition of these two companies means there are 12 providers eligible to bid on OSP-4 task orders. The other companies are ABL Space Systems, Aevum, Astra, Firefly Aerospace, Northrop Grumman, Relativity Space, Rocket Lab, SpaceX, United Launch Alliance, and X-Bow. (submitted by Ken the Bin and brianrhurley)
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Italian startup test-fires small rocket. Italian rocket builder Sidereus Space Dynamics has completed the first integrated system test of its EOS rocket, European Spaceflight reports. This test occurred Sunday, culminating in a firing of the rocket’s kerosene/liquid oxygen MR-5 main engine for approximately 11 seconds. The EOS rocket is a novel design, utilizing a single-stage-to-orbit architecture, with the reusable booster returning to Earth from orbit for recovery under a parafoil. The rocket stands less than 14 feet (4.2 meters) tall and will be capable of delivering about 29 pounds (13 kilograms) of payload to low-Earth orbit.
A lean operation … After it completes integrated testing on the ground, the company will conduct the first low-altitude EOS test flights. Founded in 2019, Sidereus has raised 6.6 million euros ($7.1 million) to fund the development of the EOS rocket. While this is a fraction of the funding other European launch startups like Isar Aerospace, MaiaSpace, and Orbex have attracted, the Sidereus’s CEO, Mattia Barbarossa, has previously stated that the company intends to “reshape spaceflight in a fraction of the time and with limited resources.” (submitted by EllPeaTea and Ken the Bin)
Enlarge/ SpaceX launches Falcon 9 rockets from Pad 39A at NASA’s Kennedy Space Center and from Pad 40 at Cape Canaveral Space Force Station. The company plans to develop Starship launch infrastructure at Pad 39A and Pad 37. United Launch Alliance flies Vulcan and Atlas V rockets from Pad 41, and Blue Origin will base its New Glenn rocket at Pad 36.
NASA (labels by Ars Technica)
United Launch Alliance and Blue Origin are worried about SpaceX’s plans to launch its enormous Starship rocket from Florida.
In documents submitted to the Federal Aviation Administration last month, ULA and Blue Origin raised concerns about the impact of Starship launch operations on their own activities on Florida’s Space Coast. Blue Origin, Jeff Bezos’ space company, urged the federal government to consider capping the number of Starship launches and landings, test-firings, and other operations, and limiting SpaceX’s activities to particular times.
Elon Musk, founder and CEO of SpaceX, called Blue Origin’s filing with the FAA “an obviously disingenuous response. Not cool of them to try (for the third time) to impede SpaceX’s progress by lawfare.” We’ll get to that in a moment.
The FAA and SpaceX are preparing an environmental impact statement for launches and landings of the Super Heavy booster and Starship rocket at Launch Complex 39A at NASA’s Kennedy Space Center (KSC), while the US Space Force is working with SpaceX on a similar environmental review for Starship flights from Space Launch Complex 37 at nearby Cape Canaveral Space Force Station (CCSFS).
These reviews likely won’t be complete until late 2025, at the earliest, and only then will SpaceX be cleared to launch Starship from Florida. SpaceX also must construct launch infrastructure at both sites, which could take a couple of years. This is already underway at Launch Complex 39A.
Big rocket with a big footprint
During the environmental review process, the FAA should weigh how regular flights of the reusable Starship—as many as 120 launches per year, according to TechCrunch—will affect other launch providers operating at Cape Canaveral, ULA and Blue Origin said. SpaceX’s final proposed launch cadence from each site will be part of draft environmental assessments released for public comment as soon as the end of this year.
SpaceX plans to launch Starlink satellites, customer payloads, and missions to support NASA’s Artemis lunar landings from the launch pads in Florida. Getting a launch pad up and running in Florida is one of several schedule hurdles facing SpaceX’s program to develop a human-rated lunar lander version of Starship, alongside demonstrating orbital refueling.
Starship-Super Heavy launches and landings “are expected to have a greater environmental impact than any other launch system currently operating at KSC or CCSFS,” Blue Origin wrote. In its current configuration, Starship is the most powerful rocket in history, and SpaceX is developing a larger version standing 492 feet (150 meters) tall with nearly 15 million pounds (6,700 metric tons) of propellant. This larger variant is the one that will fly from Cape Canaveral.
“It’s a very, very large rocket, and getting bigger,” wrote Tory Bruno, ULA’s CEO, in a post on X. “That quantity of propellant requires an evacuation zone whenever fueled that includes other people’s facilities. A (weekly) launch has injurious sound levels all the way into town. The Cape isn’t meant for a monopoly.”
Enlarge/ SpaceX’s Starship rocket launches from Starbase during its second test flight in Boca Chica, Texas, on November 18, 2023.
At SpaceX’s privately owned Starbase launch site in South Texas, the evacuation zone is set at 1.5 miles (2.5 kilometers) when Starship and Super Heavy are filled with methane and liquid oxygen propellants. During an actual launch, the checkpoint is farther back at more than 3 miles (5 kilometers) from the pad.
“The total launch capacity of the Cape will go down if other providers are forced to evacuate their facilities whenever a vehicle is fueled,” Bruno wrote.
We don’t yet know the radius of the keep-out zones for Starship operations in Florida, but Blue Origin wrote that the impact of Starship activities in Florida “may be even greater than at Starbase,” presumably due to the larger rocket SpaceX plans to launch from Cape Canaveral. If this is the case, neighboring launch pads would need to be evacuated during Starship operations.
Purely based on the geography of Cape Canaveral, ULA seems to have the bigger worry. Its launch pad for the Vulcan and Atlas V rocket is located less than 2.2 miles (3.5 kilometers) from Launch Complex 39A (LC-39A). SpaceX’s proposal for up to 44 launches from LC-39A “will result in significant airspace and ground closures, result in acoustic impacts felt at nearby operations, and potentially produce debris, particulates, and property damage,” ULA said.
ULA said these hazards could prevent it from fulfilling its contracts to launch critical national security satellites for the US military.
“As the largest rocket in existence, an accident would inflict serious or even catastrophic damage, while normal launch operations would have a cumulative impact on structures, launch vehicle hardware, and other critical launch support equipment,” ULA said.
Enlarge/ Blue Origin’s New Glenn rocket on the launch pad for testing earlier this year.
After years of lobbying, protests, and bidding, Jeff Bezos’s space company is now a military launch contractor.
The US Space Force announced Thursday that Blue Origin will compete with United Launch Alliance and SpaceX for at least 30 military launch contracts over the next five years. These launch contracts have a combined value of up to $5.6 billion.
This is the first of two major contract decisions the Space Force will make this year as the military seeks to foster more competition among its roster of launch providers and reduce its reliance on just one or two companies.
For more than a decade following its formation from the merger of Boeing and Lockheed Martin rocket programs, ULA was the sole company certified to launch the military’s most critical satellites. This changed in 2018, when SpaceX started launching national security satellites for the military. In 2020, despite protests from Blue Origin seeking eligibility, the Pentagon selected ULA and SpaceX to continue sharing launch duties.
The National Security Space Launch (NSSL) program is in charge of selecting contractors to deliver military surveillance, navigation, and communications satellites into orbit.
Over the next five years, the Space Force wants to tap into new launch capabilities from emerging space companies. The procurement approach for this new round of contracts, known as NSSL Phase 3, is different from the way the military previously bought launch services. Instead of grouping all national security launches into one monolithic contract, the Space Force is dividing them into two classifications: Lane 1 and Lane 2.
The Space Force’s contract announced Thursday was for Lane 1, which is for less demanding missions to low-Earth orbit. These missions include smaller tech demos, experiments, and launches for the military’s new constellation of missile-tracking and data-relay satellites, an effort that will eventually include hundreds or thousands of spacecraft managed by the Pentagon’s Space Development Agency.
This fall, the Space Force will award up to three contracts for Lane 2, which covers the government’s most sensitive national security satellites, which require “complex security and integration requirements.” These are often large, heavy spacecraft weighing many tons and sometimes needing to go to orbits thousands of miles from Earth. The Space Force will require Lane 2 contractors to go through a more extensive certification process than is required in Lane 1.
“Today marks the beginning of this innovative, dual-lane approach to launch service acquisition, whereby Lane 1 serves our commercial-like missions that can accept more risk and Lane 2 provides our traditional, full mission assurance for the most stressing heavy-lift launches of our most risk-averse missions,” said Frank Calvelli, assistant secretary of the Air Force for space acquisition and integration.
Meeting the criteria
The Space Force received seven bids for Lane 1, but only three companies met the criteria to join the military’s roster of launch providers. The basic requirement to win a Lane 1 contract was for a company to show its rocket can place at least 15,000 pounds of payload mass into low-Earth orbit, either on a single flight or over a series of flights within a 90-day period.
The bidders also had to substantiate their plan to launch the rocket they proposed to use for Lane 1 missions by December 15 of this year. A spokesperson for Space Systems Command said SpaceX proposed using their Falcon 9 and Falcon Heavy rockets, and ULA offered its Vulcan rocket. Those launchers are already flying. Blue Origin proposed its heavy-lift New Glenn rocket, slated for an inaugural test flight no earlier than September.
“As we anticipated, the pool of awardees is small this year because many companies are still maturing their launch capabilities,” said Brig. Gen. Kristin Panzenhagen, program executive officer for the Space Force’s assured access to space division. “Our strategy accounted for this by allowing on-ramp opportunities every year, and we expect increasing competition and diversity as new providers and systems complete development.”
Enlarge/ A SpaceX Falcon Heavy rocket lifts off from NASA’s Kennedy Space Center in Florida.
Trevor Mahlmann/Ars Technica
The Space Force plans to open up the first on-ramp opportunity for Lane 1 as soon as the end of this year. Companies with medium-lift rockets in earlier stages of development, such as Rocket Lab, Relativity Space, Firefly Aerospace, and Stoke Space, will have the chance to join ULA, SpaceX, and Blue Origin in the Lane 1 pool at that time. The structure of the NSSL Phase 3 contracts allow the Pentagon to take advantage of emerging launch capabilities as soon as they become available, according to Calvelli.
In a statement, Panzenhagen said having additional launch providers will increase the Space Force’s “resiliency” in a time of increasing competition between the US, Russia, and China in orbit. “Launching more risk-tolerant satellites on potentially less mature launch systems using tailored independent government mission assurance could yield substantial operational responsiveness, innovation, and savings,” Panzenhagen said.
More competition, theoretically, will also deliver lower launch prices to the Space Force. SpaceX and Blue Origin rockets are partially reusable, while ULA eventually plans to recover and reuse Vulcan main engines.
Over the next five years, Space Systems Command will dole out fixed-price “task orders” to ULA, SpaceX, and Blue Origin for groups of Lane 1 missions. The first batch of missions up for awards in Lane 1 include seven launches for the Space Development Agency’s missile tracking mega-constellation, plus a task order for the National Reconnaissance Office, the government’s spy satellite agency. However, military officials require a rocket to have completed at least one successful orbital launch to win a Lane 1 task order, and Blue Origin’s New Glenn doesn’t yet satisfy this requirement.
The Space Force will pay Blue Origin $5 million for an “initial capabilities assessment” for Lane 1. SpaceX and ULA, the military’s incumbent launch contractors, will each receive $1.5 million for similar assessments.
ULA, SpaceX, and Blue Origin are also the top contenders to win Lane 2 contracts later this year. In order to compete in Lane 2, a launch provider must show it has a plan for its rockets to meet the Space Force’s stringent certification requirements by October 1, 2026. SpaceX’s Falcon 9 and Falcon Heavy are already certified, and ULA’s Vulcan is on a path to achieve this milestone by the end of this year, pending a successful second test flight in the next few months. A successful debut of New Glenn by the end of this year would put the October 2026 deadline within reach of Blue Origin.
Enlarge/ Ed Dwight, 90, exits Blue Origin’s crew capsule Sunday after a 10-minute flight to the edge of space.
More than 60 years after he was denied an opportunity to become America’s first Black astronaut, Ed Dwight finally traveled into space Sunday with five other passengers on a 10-minute flight inside a Blue Origin capsule.
Dwight, a retired Air Force captain and test pilot, had a chance to become the first African American astronaut. He was one of 26 pilots the Air Force recommended to NASA for the third class of astronauts in 1963, but the agency didn’t select him. It took another 20 years for America’s first Black astronaut, Guion Bluford, to fly in space in 1983.
“Everything they did, I did, and I did it well,” Dwight said in a video released by Blue Origin. “If politics had changed, I would have gone to space in some kind of capacity.”
At the age of 90, Dwight finally entered the record books Sunday, becoming the oldest person to reach space, displacing the previous record-holder, actor William Shatner, who flew on a similar Blue Origin launch to the edge of space in 2021.
“I thought I didn’t need it in my life,” Dwight said after Sunday’s fight. “But I lied!”
Since retiring from the Air Force, Dwight became an accomplished sculptor. His works, which focus on Black history, are installed at memorials and monuments across the country.
“The transitions, the separations and stuff were a little bit more dynamic than I thought,” Dwight said in remarks after Sunday’s flight. “But that’s how it’s supposed to be. It makes your mind wonder, ‘Is something wrong?’ But no, it was absolutely terrific and the view … absolutely fantastic. This was a life-changing experience. Everybody needs to do this.”
Enlarge/ Ed Dwight stands in front of an F-104 jet fighter in 1963.
Dwight and his five co-passengers lifted off from Blue Origin’s remote launch site in West Texas at 9: 35 am CDT (14: 35 UTC). Strapped into reclining seats inside a pressurized capsule, the passengers rode Blue Origin’s New Shepard rocket into the uppermost layers of the atmosphere. After burning its main engine more than two minutes, the rocket released the crew capsule and continued coasting upward to an apogee, or high point, of nearly 66 miles (107 kilometers), just above the internationally recognized boundary of space.
This was the seventh time Blue Origin, the space company owned by billionaire Jeff Bezos, has flown people to suborbital space, and the 25th flight overall of the company’s fleet of New Shepard rockets. It was the first time Blue Origin has launched people in nearly two years, resuming suborbital service after a rocket failure on an uncrewed research flight in September 2022. In December, Blue Origin launched another uncrewed suborbital research mission to set the stage for the resumption of human missions Sunday.
Joining Dwight on Blue Origin’s capsule were investor Mason Angel, French businessman Sylvain Chiron, software engineer Kenneth Hess, adventurer Carol Schaller, and Gopi Thotakura, an Indian pilot and entrepreneur. Dwight’s ticket with Blue Origin was sponsored by Space for Humanity, a nonprofit that seeks to expand access to space for all people, and the other five participants were paying passengers.
After cutoff of the New Shepard rocket engine, the passengers had a few minutes to unfasten their seatbelts and float around the cabin while taking in the view of Earth. They returned to their seats as the capsule descended back into the atmosphere. The reusable New Shepard booster reignited its main engine for a propulsive landing back in Texas, while the crew capsule deployed parachutes to slow for touchdown a few miles away.
Two of three
However, one of the three main parachutes did not fully unfurl as the capsule drifted back to the ground. The capsule is designed to safely land with two chutes, a capability Blue Origin demonstrated on a test flight in 2016.
“It looks like we do have two parachutes that have full inflation, the third is not quite fully inflated,” said Ariane Cornell, a Blue Origin official hosting the company’s live webcast Sunday. “Landing with two parachutes is perfectly OK for this system.”
Family members and Blue Origin personnel greeted the passengers as they exited the capsule. All six appeared to be in good spirits and good health.
Although it had no obvious ill effects on the crew or the spacecraft, Blue Origin engineers will investigate the malfunction to determine what went wrong. The capsule’s three main parachutes were supplied to Blue Origin by Airborne Systems, which manufactures parachutes for every US human-rated spacecraft.
Enlarge/ One of the three main parachutes on Blue Origin’s crew capsule did not fully inflate before landing.
Blue Origin
Airborne also provides parachutes for SpaceX’s Dragon spacecraft, Boeing’s Starliner, and NASA’s Orion capsule. Those parachutes have different designs and sizes than the chutes used on Blue Origin’s capsule, but it wasn’t immediately clear if there might be any crossover concerns on other programs stemming from the malfunction on Sunday’s flight.
The Federal Aviation Administration, the regulatory agency that oversees US commercial space missions, said in a statement it did not consider the parachute issue a mishap. This statement suggests the incident will not trigger a mishap investigation that would require FAA oversight.
Before the 2022 launch failure, Blue Origin’s New Shepard program achieved a cadence, on average, of roughly one flight every two months. Virgin Galactic, the space tourism company founded by Richard Branson, ramped up the flight rate of its suborbital SpaceShipTwo spaceplane over the last year as Blue Origin’s rocket remained grounded.
But Virgin Galactic is about to halt operations of its own spaceship following one more flight with passengers next month. The company says it decided to suspend flights of the VSS Unity rocket plane to focus its resources on developing a fleet of larger air-launched spaceships that are easier to reuse.
This means Blue Origin, assuming it can regain or build on the cadence it demonstrated in 2021 and 2022, will be the only company serving the suborbital space tourism and research market for at least the next couple of years.
Enlarge/ On Wednesday, SpaceX fully stacked the Super Heavy booster and Starship upper stage for the mega-rocket’s next test flight from South Texas.
Welcome to Edition 6.44 of the Rocket Report! Kathy Lueders, general manager of SpaceX’s Starbase launch facility, says the company expects to receive an FAA launch license for the next Starship test flight shortly after Memorial Day. It looks like this rocket could fly in late May or early June, about two-and-a-half months after the previous Starship test flight. This is an improvement over the previous intervals of seven months and four months between Starship flights.
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.
Blue Origin launch on tap this weekend. Blue Origin plans to launch its first human spaceflight mission in nearly two years on Sunday. This flight will launch six passengers on a flight to suborbital space more than 60 miles (100 km) over West Texas. Blue Origin, Jeff Bezos’s space company, has not flown people to space since a New Shepard rocket failure on an uncrewed research flight in September 2022. The company successfully launched New Shepard on another uncrewed suborbital mission in December.
Historic flight … This will be the 25th flight of Blue Origin’s New Shepard rocket, and the seventh human spaceflight mission on New Shepard. Before Blue Origin’s rocket failure in 2022, the company was reaching a flight cadence of about one launch every two months, on average. The flight rate has diminished since then. Sunday’s flight is important not only because it marks the resumption of launches for Blue Origin’s suborbital human spaceflight business, but also because its six-person crew includes an aviation pioneer. Ed Dwight, 90, almost became the first Black astronaut in 1963. 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. Dwight will become the oldest person to ever fly in space.
Spaceport Camden is officially no more. With the stroke of a pen, Georgia Governor Brian Kemp signed a bill that dissolved the Camden County Spaceport Authority, Action News Jax reported. This news follows a referendum in March 2022 where more than 70 percent of voters rejected a plan to buy land for the spaceport on the Georgia coastline between Savannah and Jacksonville, Florida. County officials still tried to move forward with the spaceport initiative after the failed referendum, but Georgia’s Supreme Court ruled in February that the county had to abide by the voters’ wishes.
$12 million for what?… The government of Camden County, with a population of about 55,000 people spent $12 million on the Spaceport Camden concept over the course of a decade. The goal of the spaceport authority was to lure small launch companies to the region, but no major launches ever took place from Camden County. State Rep. Steven Sainz, who sponsored the bill eliminating the spaceport authority, said in a statement that the legislation “reflects the community’s choice and opens a path for future collaborations in economic initiatives that are more aligned with local needs.” (submitted by zapman987)
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Polaris Spaceplanes moves on to bigger things. German startup Polaris Spaceplanes says it is progressing with construction of its MIRA II and MIRA III spaceplane prototypes after MIRA, a subscale test vehicle, was damaged earlier this year, European Spaceflight reports. The MIRA demonstration vehicle crash-landed on a test flight in February. The incident occurred on takeoff at an airfield in Germany before the vehicle could ignite its linear aerospace engine in flight. The remote-controlled MIRA prototype measured about 4.25 meters long. Polaris announced on April 30 that will not repair MIRA and will instead move forward with the construction of a pair of larger vehicles.
Nearly 16 months without a launch … The MIRA II and MIRA III vehicles will be 5 meters long and will be powered by Polaris’s AS-1 aerospike engines, along with jet engines to power the craft before and after in-flight tests of the rocket engine. Aerospike engines are rocket engines that are designed to operate efficiently at all altitudes. The MIRA test vehicles are precursors to AURORA, a multipurpose spaceplane and hypersonic transporter Polaris says will be capable of delivering up to 1,000 kilograms of payload to low-Earth orbit. (submitted by Jay500001 and Tfargo04)
