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Galactic 01

Galactic 01 was the first commercial conducted by , launched on June 29, 2023, from in using the vehicle, which was carried aloft by the VMS Eve mothership before separating and reaching an apogee of approximately 85 kilometers above . The mission carried a crew of six, including three payload specialists from the and National Research Council—Colonel as mission commander, Lieutenant Colonel Angelo Landolfi as , and Pantaleone Carlucci as and —alongside Virgin Galactic's lead astronaut instructor Colin Bennett and pilots and Nicola Pecile for , with additional pilots and Jameel Janjua operating VMS Eve. The primary objectives focused on conducting scientific research in microgravity, featuring 13 across fields such as , thermo-fluid dynamics, and sustainable materials, including experiments on cognitive performance, fluid mixing, and biometric monitoring via specialized suits. The flight marked Italy's inaugural suborbital mission and the first such research endeavor commissioned by a foreign institution to a U.S. space company, successfully completing a roughly 90-minute round trip that returned all and payloads intact, paving the way for future suborbital operations by demonstrating the viability of Virgin Galactic's rocket-powered for and .

Overview

Mission summary

Galactic 01 was Virgin Galactic's first commercial , launched on June 29, 2023, from in . The mission utilized the vehicle , carried aloft by the mothership VMS Eve before separating and reaching an apogee of 85.1 km (52.9 mi). The total flight duration was approximately 70 minutes, from takeoff at 8:30 a.m. MT to landing at 9:42 a.m. MT. The primary objective was to transport 13 research payloads sponsored by the and the National Research Council of Italy for experiments in microgravity conditions. These payloads focused on areas such as human physiology, , and technology testing during the brief period of . The flight included two pilots and four passengers, among whom were three Italian crew members: Colonel and Lieutenant Colonel Angelo Landolfi from the Air Force, and Pantaleone Carlucci from the National Research Council. This mission marked Italy's first government-sponsored , advancing national research capabilities in space environments and demonstrating the viability of commercial platforms for scientific payloads. The successful execution highlighted Virgin Galactic's transition to revenue-generating operations following prior test flights.

Vehicle and site

The Galactic 01 mission utilized , a SpaceShipTwo-class suborbital developed by for . is powered by the RocketMotorTwo hybrid rocket engine, which employs as the liquid oxidizer and (HTPB) as the . The is air-launched from VMS Eve, a WhiteKnightTwo carrier aircraft also built by . VMS Eve carries to a release altitude of approximately 13.5 km (44,000 ft), where the spaceplane separates and ignites its motor for powered flight. Operations for the mission took place at , located in , which serves as Virgin Galactic's primary launch facility. The site features a 3.7 km (12,000 ft) designed for horizontal launches and landings, along with vertical assembly equipment to support spacecraft integration and preparation. VSS Unity's cabin is configured for up to six passengers, including two pilots, with a focus on suborbital and . The interior includes 12 large porthole-style windows—two per seat—providing panoramic views for during .

Background

SpaceShipTwo program

was established in 2004 by British entrepreneur as a commercial company, directly inspired by the success of , which won the $10 million on October 4, 2004, for achieving two private suborbital flights within two weeks. The company's formation was announced shortly after 's victory, with Branson partnering with —the firm behind —to develop a fleet of passenger-carrying for suborbital joyrides. To realize this vision, collaborated closely with on the design and construction of , a reusable suborbital intended to carry up to six passengers and two pilots to the edge of . The first vehicle, , was publicly rolled out on December 7, 2009, at the in , marking a major milestone in the program's development. After years of glide tests, achieved its maiden powered flight on April 29, 2013, firing its hybrid for the first time and reaching supersonic speeds. Tragically, a test flight in October 2014 resulted in the vehicle's breakup, leading to the death of co-pilot and prompting significant safety redesigns. then introduced as the second vehicle, rolled out in February 2016, which completed its own maiden powered flight on April 5, 2018, accelerating to 1.87 and validating the updated design. Following a series of successful test flights culminating in July —when VSS Unity reached an apogee of 86 kilometers on its Unity 22 mission—Virgin Galactic shifted its focus to incorporate research payloads alongside tourism, enabling scientific experiments in microgravity during suborbital flights. This evolution was announced in September with plans for the Unity 23 mission as the first dedicated commercial research flight, partnering with organizations like under the Flight Opportunities program to fly payloads for biological, materials, and technology research. A key regulatory milestone came in 2021 when the (FAA) awarded Commercial Astronaut Wings to the pilots of the Unity 22 flight, recognizing their demonstration of vehicle control skills during a commercial beyond 50 miles altitude, in line with updated FAA criteria established that year. This award affirmed Virgin Galactic's compliance with commercial spaceflight standards, paving the way for paid passenger and research missions.

Prior missions

The SpaceShipTwo program culminated in a series of test flights that paved the way for commercial operations, with the immediate precursors to Galactic 01 focusing on validating vehicle performance, passenger safety protocols, and system reliability at . On May 22, 2021, conducted Unity 21, the first crewed spaceflight from the site, where pilots David Mackay and C.J. Sturckow guided to an apogee of 85.1 km after release from at approximately 13.5 km altitude. This mission successfully demonstrated the full flight profile, including feather reentry, without incident, providing critical data on operations from the operational base. Unity 22 followed on July 11, 2021, marking the program's first fully crewed suborbital flight with two pilots and four mission specialists, including founder . The vehicle achieved an apogee of 86 km, allowing the crew to experience several minutes of microgravity while conducting human-tended experiments, such as monitoring physiological responses. This flight was instrumental in validating passenger safety configurations, confirming that non-pilot occupants could safely transition between seated and free-floating positions during ascent, apogee, and reentry phases. However, post-flight analysis revealed a minor trajectory deviation during reentry due to aerodynamic oscillations at high , though the vehicle remained within safe margins and landed uneventfully; the (FAA) subsequently investigated the anomaly, leading to a temporary grounding and software refinements to enhance flight control stability. Originally designated as Unity 23, what became was postponed from its planned late slot as a commercial research mission carrying personnel, allowing time for FAA-mandated modifications and further testing. In preparation, resumed flight testing with Unity 25 on May 25, 2023, the first powered flight since , which expanded the to Mach 2.94 and apogee of 87.2 km while verifying updates to the cabin door interlock system for passenger ingress and egress. This mission specifically addressed passenger safety by simulating commercial configurations, including unstrapped movement in . By the launch of Galactic 01, had accumulated over 50 hours of total flight time across more than 20 test missions since its rollout in , encompassing glide, captive carry, and powered profiles that informed iterative improvements. Key lessons from prior flights centered on , which maintained a nominal 8.5 equivalent to commercial airliner cabins throughout the profile, ensuring occupant comfort without pressure suits; tests confirmed no risks during feather deployment or reentry heating, peaking at around 600°C on the thermal protection surfaces. Reentry procedures were refined post-Unity 22 to incorporate automated of oscillations, reducing g-load variations from 5-6g to more predictable profiles and enhancing overall vehicle predictability for commercial payloads and passengers. These advancements collectively de-risked the transition to revenue-generating flights.

Preparation

Crew training

The crew for the Galactic 01 mission, Virgin Galactic's inaugural commercial suborbital research flight, completed a multi-week preparation program at in , tailored to the demands of high-speed ascent, microgravity, and reentry aboard . This training emphasized safety and operational proficiency unique to suborbital profiles, incorporating simulations of the flight's physiological stresses. Centrifuge sessions exposed participants to G-forces up to 6G, replicating the approximately 3-4G pull-up by the carrier aircraft and the 3-3.5G rocket boost, helping crew members develop tolerance and breathing techniques to mitigate blackout risks. Practical drills formed a core component, including emergency egress procedures to simulate rapid evacuation from the grounded or airborne vehicle under time constraints, ensuring crew could respond to potential anomalies like structural issues or off-nominal landings. Suited walks in the arid terrain of Spaceport America accustomed participants to the custom flight suits, focusing on mobility, thermal regulation, and donning protocols in environmental conditions mirroring launch day. Additionally, hands-on payload handling sessions addressed the secure stowage, activation, and monitoring of microgravity experiments, such as physiological sensors and fluid dynamics tests, to prevent interference during the brief weightless phase. For the three Italian mission specialists from the and National Research Council of Italy, training incorporated specialized coordination with the National Research Council to achieve proficiency in experiment protocols, including sensor calibration for studies and biomedical sampling in microgravity. This collaboration ensured seamless integration of the VIRTUTE 1 research objectives with Virgin Galactic's flight operations. Throughout the program, all crew members, including pilots and the training supervisor, underwent comprehensive medical evaluations and psychological assessments aligned with guidelines for commercial . These included cardiovascular stress tests, neurological screenings, and reviews to identify any conditions that could exacerbate under G-loads or , with emphasizing risks like .

Payload setup

The Galactic 01 mission integrated 13 research payloads developed by the in collaboration with the National Research Council of Italy (CNR) and various universities, transforming VSS Unity's cabin into a suborbital for experiments in , thermo-, and human . These payloads encompassed studies, such as the experiment on particle interactions in microgravity and the device for thermo-fluid analysis, alongside biological investigations including the SFS1 smart flight suit for biomedical monitoring of crew physiological effects and ECG Holter monitoring for physiological effects on crew members. Payload configuration utilized Virgin Galactic's rack-mounted system in lockers, enabling both autonomous operations—such as the Liulin-CNR-VG detector and CAQ air quality monitor—and human-tended activations by the crew, like the SHARCS experiment on shape memory polymers. Power and data interfaces were provided through onboard vehicle systems, with pre-flight testing ensuring compatibility and functionality for data collection during the brief microgravity phase. Logistics for payload integration involved close coordination between Virgin Galactic's Payload Integration team and Italian researchers, with the experiments—originating from institutions in —transported and loaded at in the weeks leading to the June 29, 2023, launch. Safety protocols included rigorous pre-flight verifications to confirm non-interference with VSS Unity's flight systems, encompassing tests and structural assessments for all rack-mounted and wearable components. These measures ensured the payloads supported objectives like evaluating microgravity impacts on fluids and biological materials without compromising mission safety.

Crew

Pilots

The pilots of for the Galactic 01 mission were Commander and Pilot Nicola Pecile, both veteran aviators employed by . , an Italian-American, served as a in the U.S. , where he accumulated over 10,000 flight hours across 70 aircraft types, including as a U-2 . Prior to joining , he worked as a Citation X captain and check airman at XOJET Inc. Masucci had extensive experience with , having participated in multiple test flights, making Galactic 01 his fourth . Nicola Pecile, an national, is a former lieutenant colonel in the , with over 20 years of service as a primarily on the F Mk.3 and as an experimental on 177 types. He joined in 2015 and gained hands-on experience starting in 2019, including a key role in the Unity 22 mission preparations and subsequent test flights. Galactic 01 marked Pecile's first spaceflight. In their assigned roles, Masucci, as commander, was responsible for the spacecraft's release from the VMS Eve mothership and ignition of the rocket boost phase during ascent. Pecile, as pilot, oversaw the reentry configuration, including wing feathering, and the precision landing at Spaceport America. Both pilots held FAA commercial pilot certifications, enabling operations under the company's FAA-approved Part 135 commercial framework for suborbital flights.

Researchers

The researchers on the Galactic 01 mission consisted of four payload specialists: three from the and National Research Council of Italy (CNR), marking Italy's first suborbital research flight with human-tended experiments, alongside Virgin Galactic's lead instructor. The specialists had no prior experience and were chosen for their expertise in , , and physiological research to oversee 13 payloads focused on biomedical, , and studies during the brief microgravity period. Colin , a national and 's 003, served as lead astronaut instructor, supporting payload operations and crew coordination during the flight. Bennett, who joined in 2015, had previously flown on the Unity 22 mission in July 2021 with founder , accumulating experience in suborbital operations and microgravity research support. Colonel , an officer and aerospace engineer, served as the mission commander for the Italian team. He was responsible for managing the rack-mounted research payloads and monitoring their activation in microgravity, while also wearing an advanced smart suit to collect real-time biometric data on his physiological responses. Villadei, born in 1974, had extensive experience as a and space operations specialist prior to the flight. Lieutenant Colonel Angelo Landolfi, a and with the , focused on biomedical experiments during the mission. As a trained crew from the cosmonaut program, he conducted assessments of cognitive function and performance in microgravity, contributing to studies on human factors in suborbital environments. Landolfi's background included in aerospace , making him integral to the health monitoring aspects of the payloads. Pantaleone Carlucci, an aerospace engineer affiliated with the CNR, handled physiological and engineering-related experiments as part of the operations. With over eight years at the CNR in energy and propulsion research, and holding a pilot's license, Carlucci wore multiple sensors to evaluate , brain activity, and other metrics under microgravity conditions, supporting interdisciplinary data collection. His role emphasized the integration of human-subject testing with the mission's scientific objectives.

Flight

Launch sequence

The launch sequence for Galactic 01 commenced with the takeoff of the carrier aircraft VMS Eve at 8:30 a.m. MDT from the runway at in , with VSS securely mated underneath its fuselage. VMS Eve, piloted by its crew, climbed steadily over approximately 60 minutes to a release altitude of 13.5 km (44,500 feet), positioning Unity for the subsequent powered phase of the flight. At approximately 9:30 a.m. MDT, was released from VMS Eve, beginning a brief freefall; this was followed immediately by a 10-second countdown initiated by the pilots, culminating in the ignition of Unity's hybrid engine. The burn provided initial thrust that accelerated the vehicle to approximately Mach 3, marking the transition to the powered ascent toward apogee.

Apogee and microgravity

The powered ascent phase of the Galactic 01 mission commenced immediately after release from the carrier , with VSS Unity's hybrid rocket motor igniting and burning for 60 seconds to accelerate the to a top speed of 2.88. This burn propelled the vehicle along a steep , culminating in an apogee of 85.1 km (52.9 miles), marking the highest point of the suborbital flight. At engine cutoff, the crew transitioned into a period of microgravity lasting approximately 3 to 4 minutes, enabling the activation of payloads and personal activities such as floating freely and observing the curvature of against the blackness of . Researchers, including payload specialists from the , conducted human-tended experiments during this weightless phase, focusing on biomedical effects like cognitive performance under hypergravity-to-microgravity transitions and thermo-fluid dynamics studies involving material mixing. Wearable sensors monitored , including and brain function, to assess physiological responses in the suborbital environment. As the initial descent began, the pilots deployed VSS Unity's feathering system, rotating the tail booms upward to a 60-degree angle relative to the fuselage. This configuration, resembling a shuttlecock, increased aerodynamic drag to stabilize the vehicle and decelerate it from hypersonic speeds, ensuring a controlled glide back toward the atmosphere. The system's design distributes reentry heat across the vehicle's underside, enhancing safety during the transition to subsonic flight.

Reentry and landing

Following apogee, VSS Unity initiated reentry in its feathered configuration, a "belly-flop" orientation that rotates the tail booms upward by 60 degrees to generate maximum aerodynamic drag. This design decelerates the vehicle from Mach 2.88 speeds at altitudes above 50 km, significantly reducing peak heating rates to below 1,000°C on the airframe surfaces and limiting G-forces to approximately 5–6 g, far lower than ballistic reentry profiles that can exceed 8 g. The feathering system, inspired by SpaceShipOne's proven technology, dissipates kinetic energy high in the atmosphere, preventing excessive thermal stress without requiring advanced heat shields. At around 20 km altitude, the pilots commanded unfeathering, lowering the tail structure to restore aerodynamic and transitioning the vehicle into a stable 45-degree glide at approximately 250 km/h. This phase allowed precise control during the descent, with the spacecraft covering roughly 20 km horizontally while losing altitude at a controlled rate. The pilots, drawing on their training, adjusted control surfaces to maintain stability amid varying atmospheric densities. The final approach traced a path over the desert, aligning with the runway for touchdown. VSS landed smoothly at 9:42 a.m. MDT on June 29, 2023, completing the 72-minute mission with no anomalies reported in the descent profile. Post-landing, ground teams conducted safing operations, including propellant venting, system shutdowns, and initial inspections to secure the vehicle and prepare for data offload and maintenance.

Outcomes

Mission results

The Galactic 01 mission achieved full operational success, with all primary objectives met, including the safe transport of six crew members to an apogee of 85.1 kilometers (52.9 miles) and the execution of 13 research payloads in microgravity without any reported anomalies. Post-flight inspections of revealed minimal wear consistent with its reusable design, allowing preparations for the subsequent mission to proceed on schedule, while the carrier aircraft VMS Eve was returned to its hangar at for routine maintenance. The confirmed the flight's status as a commercial , recognizing the four crew members—Walter , Angelo Landolfi, Nicola Pecile, and Pantaleone Carlucci—as commercial astronauts for exceeding 50 statute miles in altitude, in line with established criteria for such designations. Virgin publicly announced the mission's success on June 29, 2023, the day of the flight, generating widespread media coverage that highlighted the company's entry into routine commercial operations.

Scientific findings

The Galactic 01 mission conducted 13 research sponsored by the and the National Research Council of Italy (CNR), yielding preliminary data on microgravity effects across multiple disciplines. These experiments, detailed in the mission's payload summary, included investigations into fluid behavior, human physiology, and durability in the . In the domain, experiments such as the TESting in Space (TESIS) examined liquid mixing and foam production in microgravity, observing zero-G bubble formation in liquids that demonstrated enhanced coalescence and stability compared to terrestrial conditions. These observations contribute to improved models for fluid management in future space habitats and propulsion systems. Preliminary analysis confirmed the successful capture of high-resolution video and sensor data during the approximately four minutes of . Biomedical results focused on the physiological impacts of short-duration microgravity, particularly through the study using ECG Holter monitoring and the Smart Flight Suit 1 (SFS1). was tracked in real-time for crew member , revealing transient increases in activity and reduced variability during the ascent and apogee phases, indicative of acute stress responses to hypergravity and transitions. These findings align with broader on cardiovascular in suborbital flight and support development of countermeasures for pilot performance. Post-flight analysis by the Medical Corps highlighted minimal long-term effects, with recovery to baseline within hours. Materials exposure experiments assessed and effects on various samples, including shape memory polymers and evaporators. The Portable Dosimeter-Spectrometer Liulin-CNR-VG measured space throughout the flight, recording a total rate of 7.46 μSv over 1.22 hours, with a peak flux of 1.2 cm⁻² s⁻¹ at the Regener-Pfotzer maximum around 13 km altitude. Dose rates rose to 2.5 μGy h⁻¹ at 14.4 km before stabilizing at 2.2 μGy h⁻¹ above 30 km, dominated by protons and neutrons due to atmospheric of heavier particles. Post-flight examination of exposed samples showed negligible degradation from exposure but confirmed low-level -induced changes in polymer structures, validating their suitability for suborbital applications. These results indicate minimal risk for short suborbital missions up to 85.1 km altitude. Preliminary reports on these findings were published by the Italian National Research Council in July 2023, summarizing the successful execution of all experiments and initial data validation, with full peer-reviewed analyses published in subsequent years, including a 2024 study on space radiation measurements.

Significance

Commercial milestone

Galactic 01 represented Virgin Galactic's inaugural revenue-generating , marking a pivotal from developmental test missions to commercially operational ones. Funded by the and National Research Council, the mission carried three payload specialists, with each seat estimated at $450,000 based on the company's standard pricing for suborbital flights. This contract, originally signed in October 2019, was the first instance of a entity financing a human-tended research mission aboard a , generating approximately $1.35 million in revenue for the three seats. The successful execution of Galactic 01 on June 29, 2023, paved the way for subsequent astronaut bookings, solidifying Virgin Galactic's in the burgeoning sector. By demonstrating reliable suborbital operations, the flight enabled the company to shift focus toward scaling its flight cadence, with plans to introduce the more advanced Delta Class spaceships, with test flights expected in 2025 and commercial service, including research missions, starting in 2026. As of November 2025, ground testing has begun, with final assembly on track and test flights anticipated in early 2026. These next-generation vehicles, designed for higher flight frequency and enhanced payload capacity, are expected to support up to eight astronauts per mission and commence revenue-generating flights in late 2026 following initial research operations. The announcement of this commercial phase in June 2023 triggered a significant stock surge, with shares rising over 30% in aftermarket trading to reflect investor optimism about impending revenue streams. In the competitive landscape of , Galactic 01 positioned as a leader in accessible , distinct from rivals like and . Unlike 's vertically launched capsule, which emphasizes brief parabolic arcs for zero-gravity experiences, 's air-launched offers a glider-like reentry for extended . , primarily focused on orbital missions via its Crew Dragon, has not yet pursued dedicated suborbital tourism, leaving and as the primary providers of commercial suborbital joyrides priced around $250,000 to $450,000 per seat. This milestone underscored 's edge in operational maturity for paid within the suborbital domain.

International impact

The Galactic 01 mission significantly strengthened bilateral ties between the and in the realm of commercial spaceflight, marking the first instance of a non-U.S. government entity funding and participating in a human-tended research flight aboard 's vehicle. This collaboration stemmed from a 2019 agreement between and the , which facilitated the training and flight of three Italian crew members—Colonel , Lieutenant Colonel Angelo Landolfi, and researcher Pantaleone Carlucci from the National Research Council of Italy—along with 13 research payloads focused on , thermo-fluid dynamics, and sustainable materials. The mission's success underscored a pioneering , with Italy's Embassy in supporting the initiative and highlighting its role in advancing shared goals in space exploration. The flight served as an inspiration for broader European engagement in suborbital research, demonstrating accessible microgravity opportunities for international partners and prompting discussions on enhancing regional capabilities. Building on this momentum, the mission influenced subsequent developments, such as Virgin Galactic's 2024 with Italy's National Civil Aviation Authority (ENAC) to assess the feasibility of operating suborbital flights from Grottaglie in Puglia, potentially enabling the first crewed launches in and fostering multinational research access. This progression highlighted Italy's leadership within , aligning with efforts to integrate suborbital platforms into continental strategies. In , the mission generated substantial media attention and evoked a strong sense of national pride, celebrated as a historic milestone coinciding with the centennial of the and contributions from the National Research Council. Ambassador to the Mariangela Zappia emphasized the achievement in official statements, praising the crew's records and Italy's growing prowess in space endeavors, while describing the flight as a "pathfinder" for innovation in commercial . The event was widely portrayed as a point of national pride, reinforcing Italy's active role in global space collaborations. Looking ahead, Galactic 01 paved the way for expanded multinational payloads in Virgin Galactic's operations, with the ENAC study envisioning routine spaceflights from Italian soil that could accommodate diverse international research teams and further global cooperation in suborbital . This potential positions as a key hub for such missions, building directly on the diplomatic and technical foundations established by the 2023 flight.

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