Swedish Space Corporation and Perigee Aerospace to launch satellites from Esrange

Swedish Space Corporation (SSC) and South Korean rocket company Perigee Aerospace Inc. have signed a collaborative agreement to launch satellites jointly from Esrange Space Center in northern Sweden, starting 2025. Perigee’s Blue Whale 1 microlauncher will be the first-ever orbital rocket launched from Esrange.

“I’m very pleased to announce this historic collaboration, our first orbital launch partnership. The market demand for this service is huge and it’s needed now, by both European and international satellite owners. Perigee’s Blue Whale 1 rocket is an ideal match for our orbital launch complex at Esrange. With this partnership, SSC will be able to offer a competitive commercial European orbital launch service at our spaceport in Sweden. This is exciting news for us, and for the global space market,” says Charlotta Sund, CEO of SSC.

“SSC has an impressive 50 years of launch heritage and the new orbital launch infrastructure at Esrange is laying the foundation for the years to come. By bringing our Blue Whale 1 rocket, soon ready for orbital missions, we will partner with SSC to create a state-of-the-art orbital launch service, including further delivery through SSC's ground service offering. After a successful orbital launch from South Korea next year, we look forward to beginning this historic journey at Esrange,” says Yoon Shin, CEO and Founder of Perigee.

The two-stage launch vehicle has the capacity to place up to 200 kg into a 500 km Sun-Synchronous Orbit. Together, SSC and Perigee will develop a service concept with a shared payload space onboard the rocket to make room for both companies’ customer bases. Enforced by SSC’s global satellite ground station network, this service could also be supplemented by additional space-to-ground services.

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Perigee aims to provide the fastest and closest opportunity for all who wants to go to space. Established in 2018, Perigee is dedicated to developing Blue Whale 1 (BW1), a small launch vehicle offering the most affordable ride for small satellites to Earth orbit. BW1 is a two-stage launch vehicle capable of placing up to 200 kg payload into a 500 km Sun-Synchronous Orbit (SSO). Featuring high-performance liquid methane engines, lightweight carbon fiber composite structures, and reliable flight control systems, BW1 ensures efficient launch services worldwide.

World View expands into Indo-Pacific with $25M investment

World View, a global leader in stratospheric exploration and flight, announces the closing of a strategic $25M investment from Breakthrough Victoria, an investment company established by the Victorian government to provide long-term capital to innovation businesses and projects that will improve people’s lives and benefit Victoria’s economy.

The strategic investment from Breakthrough Victoria will enable World View to establish a regional Indo-Pacific headquarters in Melbourne. The Indo-Pacific business will operate as World View Indo-Pacific, a wholly owned subsidiary that will allow World View to pursue new customers and access new markets while benefitting from local talent, technology and capital.

The company plans to establish an advanced manufacturing facility in Victoria, creating up to 200 high-tech, high-value jobs in engineering, manufacturing, flight services and support, mission control, data and material sciences, and analytics.

“Australia, especially Victoria, offers access to incredibly skilled talent, cutting-edge technology, promising partnerships, smart capital and significant geographic leverage to support our Indo-Pacific remote sensing and future space tourism operations, while also contributing to our established business in the United States,” said Ryan M. Hartman, World View President and CEO. “We are eager to get to work in Victoria.”

World View Indo-Pacific has established a stratospheric centre of excellence at Melbourne Connect, a leading innovation hub in partnership with The University of Melbourne. This strategic partnership will facilitate stratospheric research and development at universities and research institutions across all Australian states and territories, and eventually into the wider Indo-Pacific region. Additionally, this stratospheric centre of excellence will identify and partner with small- and medium-sized Australian enterprises to develop technology and talent in support of World View’s global supply chain, playing a key role in World View’s international growth.

Next Virgin Galactic flight window opens from 8th June.....

Virgin Galactic Holdings has said that ‘Galactic 07’ flight window will open on Saturday, June 8, 2024. This will be the Company’s second spaceflight this year and 12th to date.

Virgin Galactic’s spaceship will again be converted into a suborbital science lab, with VSS Unity carrying an Axiom Space affiliated researcher astronaut who will conduct multiple human-tended experiments. In addition, Purdue University and UC Berkeley will have autonomous payloads on board, supported by NASA’s Flight Opportunities program. This mission showcases Virgin Galactic’s ability to provide a flexible microgravity research platform, benefiting further space exploration initiatives as well as innovations on Earth.

“Discovery and innovation are central to our mission at Virgin Galactic. We’re excited to build on our successful record of facilitating scientific experiments in suborbital space, and we look forward to continuing to expand our role in suborbital research going forward,” said Michael Colglazier, CEO of Virgin Galactic. “‘Galactic 07’ will also mark and celebrate VSS Unity's final commercial flight – an exciting and historic turning point for the business as we dedicate our resources fully to the production of our next-generation Delta spaceships, on track for commercial service in 2026.”

“Axiom Space’s commitment to enabling access to space and providing opportunities for scientific discovery beyond Earth aligns closely with Virgin Galactic’s mission,” said Tejpaul Bhatia, Chief Revenue Officer of Axiom Space. “We are very excited about this upcoming Galactic 07 flight; stay tuned for more on our groundbreaking research and astronaut participant as we get closer to June 8th.”

The hybrid research and private astronaut crew of ‘Galactic 07’ will include:

Rocket Lab gets ready for back-to-back launches for climate change research mission

Rocket Lab USA, is preparing two back-to-back Electron launches to deploy NASA’s PREFIRE - Polar Radiant Energy in the Far-InfraRed Experiment mission.  The two dedicated missions will each deploy one satellite to a 525km circular orbit from Rocket Lab Launch Complex 1 in Mahia, New Zealand. The first mission – named ‘Ready, Aim, PREFIRE’ – is scheduled to launch no earlier than May 22, 2024. The launch date of the second mission – named ‘PREFIRE And Ice’ – will be scheduled to take place within three weeks of the successful deployment of the first PREFIRE mission. The missions will be Rocket Lab’s 48th and 49th Electron launches overall and its sixth and seventh launches of 2024.

NASA’s PREFIRE mission is a climate change-focused mission that will systematically measure the heat, in the form of infrared and far-infrared wavelengths, lost from Earth’s polar regions for the first time. Extreme storms, flooding, and coastal erosion are examples of weather outcomes that are influenced by climate conditions in the Arctic and Antarctica. Once deployed to their separate orbits, the two PREFIRE satellites will criss-cross over the Arctic and Antarctica measuring thermal infrared radiation – the same type of energy emitted from a heat lamp – that will make climate models more accurate and help predict changes caused by global warming. PREFIRE consists of two 6U CubeSats with a baseline mission length of 10 months.

Airbus expands its Earth observation constellation with Pléiades Neo Next

Airbus has launched the Pléiades Neo Next programme to expand its very high-resolution Earth observation constellation. This new programme will result in new satellite assets and capabilities, including enhanced native resolution. As a first step of Pléiades Neo Next, Airbus is developing a new satellite which will be launched in the next few years.

“The Pléiades Neo Next programme builds on the success of our existing Pléiades Neo constellation which serves government and commercial customers around the world,” said Karen Florschütz, Executive Vice President of Connected Intelligence at Airbus Defence and Space. “This new programme will further enhance our standard of excellence in terms of quality, performance, and reliability to deliver images as well as geo-intelligence services and applications.”

The Pléiades Neo Next programme is funded, manufactured, and operated by Airbus Defence and Space, with the full image capacity available for a wide range of sectors including defence and intelligence, agriculture, environment, maritime, disaster response, mapping, location-based services, civil engineering, urban planning and utilities.

Users will continue to be able to directly task the Airbus satellites up to a few dozen minutes prior to the satellite over the area of interest. Images will be received through the customer’s Direct Receiving Stations (DRS) on the ground, or on the OneAtlas digital platform, swiftly after collection, allowing mission-critical applications.

Vast’s Haven-1 aims to be the world’s first commercial space station connected by SpaceX starlink

Vast’s Haven-1, is scheduled to be the world’s first commercial space station and will be equipped with SpaceX’s Starlink laser terminal providing Gigabit/s speed, low latency connectivity to its crew users, internal payload racks, external cameras and instruments.

“If you need to provide high-speed, low-latency, continuous internet connectivity on a space station in orbit in 2025, SpaceX Starlink is the only option,” said Max Haot, Vast’s CEO. “We expect their network and technology leading position to continue and accelerate over time, which is why we are excited to have the chance to partner with SpaceX on deploying their first laser connectivity for a space station.”

The Haven-1 crew will be able to connect their personal devices via Wi-Fi to the Starlink network and have unprecedentedly better internet connectivity on orbit to host outreach video calls and perform experiments and science with full, high-speed internet access. Even during crew rest time, they will be able to use high-speed internet.

“High-speed, low-latency connectivity on orbit for crew and critical scientific research is critical to any space station experience,” said Stephanie Bednarek, SpaceX’s Senior Director of Commercial Sales. “We are excited for Vast’s Haven-1 to be the first commercial space station to stay connected with Starlink.”

Vast and SpaceX have reached an agreement for SpaceX to provide Starlink connectivity to future Vast platforms beyond Haven 1, including connectivity for Vast’s next space station, which the company plans to bid for in NASA's upcoming commercial Low Earth Orbit destinations (CLDs) competition.

In May 2023, Vast announced that SpaceX will launch Haven-1, followed by two human spaceflight missions to the Haven-1 space station.

This new partnership between Vast and SpaceX will continue to create and accelerate greater accessibility to space and more opportunities for exploration on the road to making humanity multiplanetary.

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Sierra Space Ghost Enters Flight Test Enabling Global Payload Delivery in 90 Minutes

Sierra Space, a leading commercial space-tech company and next-generation defense-tech prime, building a platform in space to benefit life on Earth and protect the freedom of economic activity in the Orbital Age®, has successfully beta-tested a revolutionary new logistics spacecraft, Sierra Space Ghost.

This new technology propels Sierra Space into a new era of national security space and space logistics, promising to redefine the way critical defence supplies are delivered across the globe. The Sierra Space Ghost Beta decelerator, part of the company’s recently announced Sierra Space Axelerator™ incubator, is a cutting-edge thermal protection system tailored for the safe return of small payloads from space. 

Last month, the first drop test of the Sierra Space Ghost was completed in Florida, enabling Sierra Space test engineers to fully understand the flight characteristics of the system and how recovery operations can be rapidly completed on the ground.

“As we continue to innovate at speed, this test enables us to build, test, learn and accelerate the development of a revolutionary new operational asset for national security,” said Tom Vice, CEO of Sierra Space. “We envision having an inventory of Sierra Space Ghost vehicles strategically positioned and readily accessible and deployable within 90 minutes to critical locations anywhere on Earth. Sierra Space Ghost enables our customers to deliver vital resources to frontline personnel with unparalleled precision and speed.”

Space Flight Laboratory (SFL) confirms deployment of HawkEye 360 microsatellite clusters 8 and 9

Space Flight Laboratory (SFL) confirmed that six radio frequency geolocation microsatellites developed for HawkEye 360 of Herndon, Va., have successfully communicated with ground control. The HawkEye 360 Cluster 8 and 9 satellites were launched yesterday at 7:16 pm EDT from Florida aboard the SpaceX Bandwagon-1 Rideshare.

The two new three-satellite clusters bring to 27 the total number of geolocation microsatellites developed by SFL for HawkEye 360, which integrated Cluster 8 at its own plant in Virginia under SFL’s Flex Production Program. For Cluster 9, which represents the next evolution and includes updated payload and platform features, SFL handled the entire process, including development, integration, and testing, at its Toronto facility.

“SFL is proud to play a key role in the development of HawkEye 360’s space assets as it continues to expand and enhance its unparalleled space-based RF data detection and analytics capabilities,” said SFL Director Dr. Robert E. Zee.

Rocket Lab prepares to launch mission for KAIST and NASA to deploy satellites to two separate orbits

Rocket Lab USA has set the launch window for its next Electron launch.

The ‘Beginning Of The Swarm’ mission is scheduled to launch from Rocket Lab Launch Complex 1 in Mahia, New Zealand during a 14-day launch window that opens on April 24th. Electron will carry two satellites for two separate customers: NEONSAT-1, an Earth observation satellite for the Satellite Technology Research Center (SaTReC) at the Korea Advanced Institute of Science and Technology (KAIST), and NASA’s Advanced Composite Solar Sail System (ACS3).

The launch will broadcast live at www.rocketlabusa.com/live-stream

The primary payload for this mission, NEONSAT-1, is an Earth observation satellite with a high-resolution optical camera designed to monitor for natural disasters along the Korean Peninsula by pairing its images with artificial intelligence. NEONSAT-1 is the first satellite developed under the NEONSAT program by SaTReC and KAIST, Korea’s leading university in science and technology, which developed and operated Korea’s very first satellite KITSAT-1 more than 30 years ago. Other NEONSAT satellites are planned to be launched in 2026 and 2027 to build out the NEONSAT constellation. The program is a collaboration across multiple Korean academic, industry, and research institutions including SaTReC in KAIST, which is leading the program’s system design and engineering; the SaTReC Initiative, a Korean satellite manufacturer that has successfully developed seven previous remote sensing satellites for low Earth orbit; and the Korea Aerospace Research Institute (KARI), which is managing the mission’s ground segments and technology supervision for the NEONSAT program. NEONSAT is funded by the Koren government’s Ministry of Science and ICT (MSIT).

Airbus continues to collaborate with NASA to monitor climate change from Space

GRACE-C contract for two spacecraft awarded to Airbus

NASA and DLR mission will continue measurements of Earth’s gravity field

Airbus has been awarded a contract to design and build the GRACE-C twin spacecraft by NASA’s Jet Propulsion Laboratory JPL (Pasadena, California). This new mission of NASA and the German Space Agency at the German Aerospace Center (DLR) will strengthen the more than 20 year long partnership between the USA and Germany to ensure uninterrupted measurement of the Earth's gravity field, which started in 2002 with GRACE and continues with GRACE Follow-On, launched in 2018.

During its five year nominal mission lifetime, the GRACE-C Mission (Gravity Recovery And Climate Experiment-Continuity) will continue the series of measurements observing how Earth’s groundwater, oceans, ice sheets, and land shift, month-to-month, by measuring changes in the planet’s gravity field. 

Alain Fauré, Head of Space Systems at Airbus, said: “It is amazing to think that, without looking down at Earth, two satellites more than 200 km away from each other, can tell us how quickly our ice sheets are melting. In environmental monitoring, continuity is key. The valuable data provided by the previous GRACE missions is testament to their success and it is great news that Airbus continues to be part of this international mission providing the tools to measure how our climate is evolving.”

GRACE-C consists of two identical satellites flying around 200 km apart at an orbit altitude of 500 km with an inclination of 89 degrees. Each satellite will measure approximately 3 x 2 x 1 metres and weigh around 600 kg. Launch is planned no earlier than late 2028 from the USA.

Latest SpaceX launch goes further than before.

The latest starship from SpaceX launched today, becoming the heaviest manmade object in space, at least for a while.  Elon Musk claimed it would be the starship that takes humanity to Mars. The two-stage vehicle made what appeared to be a perfect getaway from its Texas launch site, to send its upper portion around the globe to a re-entry over the Indian Ocean.

Radio contact was lost towards the end but the firm said it was "incredible to see how far we got this time around".  They lost contact with it, presumably because it had broken up and according to some, the fact the craft didn't survive re-entry to splashdown would be a disappointment, it still represents a major step forward in the development of the world's most powerful rocket. 

The FAA said, a mishap occurred during the SpaceX Starship OFT-3 mission that launched from Boca Chica, Texas, on 14th March. The mishap involved both the Super Heavy booster and the Starship vehicle.

No public injuries or public property damage have been reported. The FAA is overseeing the SpaceX-led mishap investigation to ensure the company complies with its FAA-approved mishap investigation plan and other regulatory requirements. 

  

A mishap investigation is designed to further enhance public safety, determine the root cause of the event, and identify corrective actions to avoid it from happening again. 

  

SpaceX will not need to worry though, the FAA is taking a back seat in the investigation process allowing Musk's space firm to say what went wrong and what went right and the regulator would then rubber stamp whatever SpaceX’s final report says, including any corrective actions. 

A return to flight is based on the FAA determining that any system, process, or procedure related to the mishap does not affect public safety. In addition, SpaceX may need to modify its license to incorporate any corrective actions and meet all other licensing requirements. 

Rocket Lab successfully launches 45th Electron mission for Synspective

Rocket Lab USA, a global leader in launch services and space systems, today launched its 45th Electron rocket, successfully deploying a fourth synthetic aperture radar satellite to Synspective’s Earth-observation constellation.

“Owl Night Long,” a dedicated mission for Synspective, launched from Pad B at Rocket Lab’s Launch Complex 1 in New Zealand at 04:03 NZDT on March 13, 2024 (15:03 UTC, March 12). The mission delivered a single spacecraft, the StriX-3 satellite, to a 561km Sun Synchronous Orbit, where it joined Synspective’s growing constellation.

Rocket Lab has been the sole launch provider for Synspective’s constellation, previously delivering three satellites across launches in September 2022, February 2022, and December 2020. Rocket Lab will launch two more missions for Synspective as part of a multi-launch agreement signed in 2023.

1200 MHz radar bandwidth in-orbit technology demonstrator enhances ICEYE’s expansive SAR satellite constellation

                  ICEYE, the global leader in persistent monitoring and natural catastrophe solutions, successfully launched three additional synthetic aperture radar (SAR) satellites on March 4, 2024, including a 1200 MHz radar bandwidth in-orbit technology demonstrator that will enable 25 cm imaging. The satellites were integrated via launch integrator Exolaunch and successfully lifted off aboard SpaceX’s Transporter-10 rideshare from Vandenberg Space Force Base in California, USA. Each spacecraft has established communication, and early routine operations are underway. 

ICEYE strengthens its persistent Earth Observation capabilities with the successful launch of three new satellites.

Two of the three SAR satellites launched on the mission are manufactured by ICEYE US, while one is an in-orbit technology demonstrator manufactured by ICEYE in Finland. The in-orbit demonstrator model features an upgrade to ICEYE’s unique X-band antenna, increasing radar bandwidth to 1200 MHz. This enables higher-resolution imagery, up to 25 cm, and will be initially assigned to engineering tests before being made available to ICEYE customers. 

“Our growing constellation provides an objective and reliable source of intelligence, enabling a faster, more accurate response to changes taking place anywhere on the planet,” Rafal Modrzewski, CEO and Co-founder of ICEYE. “The launch of the 1200 MHz bandwidth technology demonstrator delivers 25 cm resolution SAR imaging, unlocking a new level of clarity and detail for high-priority decision-making.” 

The satellites launched include an advanced radar that enables major improvements in image quality, faster downlink speeds for more agile imagery collections, and better integration with ICEYE’s global network of ground stations. 

Eric Jensen, CEO of ICEYE US, said: “Our partners require dependable and persistent change detection to address emergent, time-critical needs. We are proud to add two additional U.S-built satellites to our constellation, strengthening our commitment to deliver strategic insights for our defense, intelligence, civil, and commercial customers.” 

ICEYE has now successfully deployed 34 spacecraft since 2018 and operates the world’s largest constellation of SAR satellites, which can image any location on the Earth’s surface in any environmental condition, day or night. SAR data provides precise insights for ICEYE’s government and commercial customers in near real-time.

 

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Rocket Lab to launch NRO mission from Wallops, Virginia

The mission will be Rocket Lab’s first NRO launch from Wallops, Virginia, following four previous successful launches for the agency from New Zealand 

Rocket Lab USA, a global leader in launch services and space systems, announced it will launch a dedicated mission for the National Reconnaissance Office (NRO) from Launch Complex 2 in Wallops, Virginia, during a launch window that opens March 20th, 2024.   

The NROL-123 mission, called ‘Live and Let Fly’, will be Rocket Lab’s first launch for the NRO from the United States after previously launching four NRO missions from Launch Complex 1 on New Zealand’s Mahia Peninsula. It will be Rocket Lab’s 4thmission from Launch Complex 2, a dedicated pad for the Electron rocket located at Virginia Spaceport Authority's Mid-Atlantic Regional Spaceport within the NASA Wallops Flight Facility in Virginia.  

Rocket Lab schedules launch date for 45th Electron Mission........

Rocket Lab USA,  a global leader in launch services and space systems, today announced the launch window for its 45th Electron launch, a dedicated mission for Synspective, a Japanese Earth-imaging satellite constellation operator.

The “Owl Night Long” mission is scheduled to launch during a 14-day window that opens on March 10th NZDT (March 9th UTC). The mission will lift off from Rocket Lab Launch Complex 1 in New Zealand and will deploy a StriX-3 satellite to orbit, continuing a multi-launch agreement to deliver Synspective’s StriX-series satellites to low Earth orbit.

Rocket Lab has been the exclusive launch provider for Synspective to date and the “Owl Night Long” mission will be Rocket Lab’s fourth launch for the constellation operator following launches in 2020 and 2022:

The Owls’ Night Begins: Launched December 2020

The Owl’s Night Continues: Launched February 2022

The Owl Spreads its Wings: Launched September 2022

Synspective is a satellite data solutions provider with its own constellation of SAR satellites. Synthetic Aperture Radar (SAR) is an active system that transmits microwave pulses toward the Earth's surface and receives the reflected signals to create an image of the target area. Unlike other imaging technologies, SAR can penetrate clouds and other atmospheric conditions, enabling it to collect data day or night with frequent revisit rates.

The world’s first metal 3D printer for space is on its way to the ISS

The first metal 3D printer for space, developed by Airbus* for the European Space Agency (ESA), will soon be tested aboard the Columbus module of the International Space Station (ISS). It could be a real game changer for manufacturing in space and future missions to the Moon or Mars. 

Additive Manufacturing (AM) is an industrial process that has opened up new ways of looking at how parts are designed. It has many uses from the day-to-day to the surprising: from simple repairs to bio-ink implants, from printing whole houses to producing spacecraft parts. 

Metal 3D printing makes life easier for astronauts

There are already several plastic 3D printers on board the International Space Station (ISS), the first of which arrived  in 2014. Astronauts have already used them to replace or repair plastic parts, since one of the major problems of everyday life in space is the supply of equipment, which can take months to arrive. But not everything can be made from plastic… 

This logistical constraint will intensify on future Moon and Mars stations in the next few decades. Even though the raw material still needs to be launched, printing the part is still more efficient than transporting it whole up to its final destination.

Gwenaëlle Aridon, Airbus Space Assembly lead engineer, says: “The metal 3D printer will bring new on-orbit manufacturing capabilities, including the possibility to produce load-bearing structural parts that are more resilient than a plastic equivalent. Astronauts will be able to directly manufacture tools such as wrenches or mounting interfaces that could connect several parts together. The flexibility and rapid availability of 3D printing will greatly improve astronauts’ autonomy.” 

The challenges of printing metal in space

Airbus Announces Purchase of Eutelsat OneWeb’s Stake in Satellite Constellation Manufacturing Joint Venture

Airbus U.S. Space & Defense, Inc. announced the completion of a deal with Eutelsat OneWeb to purchase its 50% share of the Airbus OneWeb Satellites (AOS) joint venture. 

Airbus is now the sole owner of AOS and the satellite manufacturing facility in Merritt Island, Florida.

The new structure is expected to provide maximum efficiency and increased competitiveness for commercial, institutional and national security space customers.

“This agreement furthers our position as a market leader in the small satellite constellation business, building on our successful partnership with OneWeb,” said Robert Geckle, Chairman and CEO, of Airbus U.S. Space & Defense, Inc. “We will continue mass-producing small satellites for our customers and are excited for what the future holds for us on Florida’s Space Coast as we move forward,” he added.

Airbus U.S. Space & Defense recently retooled the Merritt Island factory to accommodate the Arrow450 production line and is starting an expansion project to meet increased demand for small satellites from commercial and government customers deepening the company’s presence in Florida.

The Airbus OneWeb Satellites joint venture, established in 2016, built more than 600 satellites at the rate of two per day for the OneWeb first-generation constellation, currently operating on-orbit. 

Virgin Galactic Completes 11th Successful Spaceflight

Virgin Galactic Holdings has successfully completed its first spaceflight of 2024 and 11th mission to date. The ‘Galactic 06’ flight marked the first time all four seats aboard VSS Unity were occupied by private astronauts.

Michael Colglazier, CEO of Virgin Galactic, said: "The incredible team at Virgin Galactic supported another successful mission and delivered an unforgettable experience for four new astronauts. The success of ‘Galactic 06’ and the Company’s other commercial spaceflights in recent months only increases our confidence in the repeatability of our product and our ability to deliver a superlative experience to our customers. With the production of our next-generation Delta-class ships underway, we look forward to expanding our flight capacity with testing expected to start next year and commercial service in 2026.”

Onboard ‘Galactic 06’:

Astronaut 023 – Lina Borozdina, Ukraine and Nevada, U.S.

Astronaut 024 – Robie Vaughn, Texas, U.S.

Astronaut 025 – Franz Haider, Austria

Astronaut 026 – Neil Kornswiet, California, U.S.

The launch was watched from the ground at Spaceport America by more than 150 guests alongside Virgin Galactic’s team.

VSS Unity was commanded by C.J. Sturckow with pilot Nicola Pecile. Michael Masucci commanded mothership VMS Eve joined by pilot Dan Alix.

‘Galactic 06’ Flight Facts:

Take-off Time: 10:00 am MT

Altitude at Release: 44,493 ft

Apogee: 55.2 miles

Top Speed: Mach 2.98

Landing Time: 10:56 am MT

The Company’s next mission, expected in the second quarter of 2024, will include both a researcher and private astronauts. More information on that mission will be announced soon.

Rocket Lab USA has set the launch window for its first mission of 2024.

Rocket Lab USA, Inc. has set the launch window for its first mission of 2024.

Rocket Lab will also attempt to recover Electron’s first stage from the mission in next step for reusability.

The ‘Four of a Kind’ mission is scheduled to launch no earlier than January 18 between 19:15-20:00 NZT (January 18 between 06:15-07:00 UTC) from Rocket Lab Launch Complex 1 in New Zealand. The mission will deploy four Space Situational Awareness (SSA) satellites for Spire Global, Inc’s (Spire) customer NorthStar Earth & Space (NorthStar). NorthStar´s satellites, built and operated by Spire, will be the first to simultaneously monitor all near-Earth orbits from space, delivering a radically enhanced level of SSA services to the global satellite community, with timely and precise information for space object detection, tracking, orbit determination, collision avoidance, navigation, and proximity alerts.

As a secondary mission, Rocket Lab will be attempting to splash down and retrieve Electron’s first stage as part of the Company’s plan to evolve Electron into a reusable rocket. After launch and stage separation, Electron’s first stage will return to Earth under a parachute and splash down in the Pacific Ocean several hundred kilometers down range from Launch Complex 1. Rocket Lab’s recovery vessel will extract the stage from the water for transportation back to Rocket Lab’s production complex where it will undergo detailed analysis. Rocket Lab is not launching any pre-flown engines as part of this mission.

“With each recovery mission we iterate toward Electron reusability and with recent launches we’ve made significant leaps forward with more successful splashdowns, recoveries and the first launch of a pre-flown Rutherford engine,” said Rocket Lab founder and CEO Peter Beck. “We’re looking forward to putting advanced heat-shielding and waterproofing systems to the test on this mission as one of the final steps before re-flying an entire first stage. To launch an advanced mission like this with Spire as a mission partner is a real privilege, as they were on our very first orbital mission in 2018. To be partnered up again and both still pushing boundaries with new technology and capabilities all these years later is a great full circle moment.”

Sierra Space’s Revolutionary Dream Chaser Enters Final Test Campaign

Wings Are Back

Sierra Space’s Revolutionary Dream Chaser Enters Final Test Campaign, Spaceplane Transitioning to Orbital Operations.

Sierra Space, a leading commercial space company building the first end-to-end business and technology platform in space to benefit of life on Earth, has delivered the first Dream Chaser spaceplane, Tenacity, to NASA’s Neil Armstrong Test Facility in Sandusky, Ohio.

Dream Chaser, the world’s only commercial spaceplane, has entered the final testing phase ahead of its first flight in 2024. The testing campaign will confirm the spacecraft’s resilience to the challenges of launch and the demanding conditions of space as it prepares for its inaugural mission to the International Space Station under a multi-mission NASA contract.

Dream Chaser joins Sierra Space’s cargo module, Shooting Star™, which arrived at the NASA test facility in November. The two vehicles are set to be stacked in launch configuration and undergo rigorous environmental testing starting in the Mechanical Vibration Facility. The test will subject them to the extreme conditions of launch vibrations on the world’s most powerful spacecraft shaker table.

Sierra Space is unwavering in its commitment to ensuring the utmost reliability of its cutting-edge technologies. Dream Chaser, crafted in tandem with the groundbreaking Shooting Star cargo module, will reinvent space transportation and usher in the burgeoning era of space commercialization known as the Orbital Age®.

“At Sierra Space, we are ushering in the next industrial revolution with a business and technology platform that provides our customers with a complete turn-key solution offering space as a service,” said Sierra Space CEO Tom Vice. “Our platform includes Dream Chaser, a revolutionary, highly reusable commercial spaceplane with global runway access, and the first business-ready commercial space station, leveraging the most advanced expandable structural architecture that will exponentially decrease the cost of product development and manufacturing in space.”

Sierra Space is Revolutionizing Space Transportation – Dream Chaser’s Unique Capabilities:

No More Plunging into the Ocean – Dream Chaser Uses the World’s Global Commercial Runways

Designed To Be Highly Reusable – Minimum 15 Missions Per System

Fully Autonomous Operations

High-Capacity Up Mass and Down Mass Payloads (Pressurized & Unpressurized)

Low G Landings – Better for Science, Cargo and Crew

Fast Access to Payloads and Science Upon Landing – Easy to Integrate into Ground Logistics

Breakthrough Green Hydrogen Peroxide-Based Propulsion System

Second Dream Chaser Vehicle, Reverence, In Production

Selected by a NASA contract:

Dream Chaser was selected by NASA for cargo delivery, return and disposal service for the International Space Station under the Commercial Resupply Services-2 (CRS-2) contract.