Firefly Aerospace

Last updated

Firefly Aerospace
Industry Aerospace
FoundedMarch 2017;7 years ago (2017-03)
FounderTom Markusic
Headquarters
Cedar Park, Texas
,
United States
Key people
Jason Kim (CEO)
ProductsAlpha (small-lift launch vehicle)
MLV (medium-lift launch vehicle)
Blue Ghost (lunar lander)
Elytra (space tug)
Number of employees
750
Website fireflyspace.com

Firefly Aerospace [1] [2] is an American private aerospace firm based in Cedar Park, Texas, that develops small and medium launch vehicles for commercial launches to orbit. [3] The current company was formed when the assets of the former company Firefly Space Systems were acquired by EOS Launcher in March 2017, which was then renamed Firefly Aerospace. Firefly's stated purpose is to increase access to space, [4] similar to other private spaceflight companies.

Contents

History

Firefly Space Systems

Early growth

Firefly Space Systems began as a startup in January 2014 [5] by Tom Markusic, P.J. King and Michael Blum [6] and a small group of entrepreneurs who self-funded the company. The company was named in honor of the cult hit television show Firefly. In November 2014, Firefly moved its headquarters from Hawthorne, California to Austin-suburb Cedar Park, Texas. [7] [4] It grew to 43 employees by November 2014, [4] and purchased 215 acres (87 ha) of land for an engine test and manufacturing [8] facility in Briggs, Texas, 50 miles (80 km) north of Austin. [9]

In 2014, Firefly purchased fiber-winding equipment for manufacturing composite cryotanks that would be built using an out-of-autoclave process. Prototype tanks were tested at Marshall Space Flight Center of NASA in mid-2014. [9]

The Firefly Alpha design was revealed in July 2014. [5] Firefly's objective was to be cash-flow positive by 2018, based on anticipated small-satellite business. [4] Firefly had signed an agreement with Space Florida to launch from the Florida "Space Coast".

Firefly performed its first hot-fire engine test of the "Firefly Rocket Engine Research 1" (FRE-R1) on September 10, 2015. [10] [11] The initial demonstration launch of the Firefly Alpha was planned to be as early as 2016. [12]

Litigation and closure

In December 2014, Tom Markusic's former employer Virgin Galactic alleged he had illegally provided Virgin intellectual property to the Alpha development team. Virgin also alleged that Markusic had "destroyed storage devices, disposed of computers, and reformatted hard drives to cover the tracks of his misappropriation of Virgin Galactic information". [13] In August 2016, an independent arbitrator confirmed that Markusic had destroyed evidence. Thereafter, a major European investor backed down, leaving Firefly without sufficient money to proceed. The company furloughed its entire staff in October 2016. According to Markusic, the investor's drawback was not related to the litigation but to Brexit. [14] Within the same month, Virgin Orbit filed suit in Los Angeles County Superior Court against Firefly and two of its officers. [15] By December 1, 2016, Firefly Space Systems had permanently ceased engineering work. [14]

In March 2017, it was announced that "virtually all" of the assets of Firefly would be sold at auction, organized by EOS Launcher, Inc., who had previously bought a US$1 million promissory note issued by Firefly to Space Florida and induced a foreclosure. [16] [17]

Firefly Aerospace

After going bankrupt and being liquidated in March 2017, the company was re-created as Firefly Aerospace by Noosphere Ventures, [18] who bought out the assets of former Firefly Space Systems. [1] The owner of Noosphere Ventures, Max Polyakov, [19] committed to fully fund Firefly through at least its first two launches. [20] The plans for engine development were significantly altered by the new management, and the revised Alpha vehicle design featured a pump-fed engine[ failed verification ] and removed the aerospike configuration. [21] The reorganization initially delayed development by approximately a year, with the first launch expected, as of 2017, in 2019. [22]

Development of engines and structures resumed in 2017 and Firefly Aerospace performed multiple hot-fire tests of its Lightning-1 second stage engine on its existing horizontal test stand. A vertical stage test stand was nearing completion[ when? ] and stage testing was expected to begin in the second half of 2018.[ citation needed ]

President of Ukraine Petro Poroshenko at the opening of a Ukrainian branch. Firefly Aerospace Ukraine.jpg
President of Ukraine Petro Poroshenko at the opening of a Ukrainian branch.

On May 17, 2018, Firefly Aerospace opened a Research and development (R&D) center in the city of Dnipro, Ukraine. [23] The Firefly R&D center was announced to become, over time, a place of work for more than 150 employees, and is equipped with the largest 3D-printer in Ukraine, intended for industrial manufacturing of high-quality metal parts. [24]

On October 10, 2018, Firefly Aerospace and smallsat developer York Space Systems announced a partnership to offer customers a combined package of satellite and launch services. [25]

In November 2018, it was announced that NASA selected Firefly Aerospace as one of nine companies able to bid for Commercial Lunar Payload Services (CLPS), [26] where the company would propose a robotic lunar lander called Firefly Genesis. [27]

In February 2019, the company announced that it would develop manufacturing facilities and a launch site at Cape Canaveral. [28] They have leased a private launch pad in Florida — the former Space Launch Complex 20 (SLC-20) which had been used by the U.S. Air Force in the 1950s through 1996 — from the U.S. government and they also have a similar lease arrangement on the U.S. West Coast. [29]

In December 2019, a group of primary shareholders of Firefly Space Systems filed a lawsuit alleging fraud and intentional bankruptcy of the company by Tom Markusic. According to the defendants, including Polyakov, the lawsuit was provocative and the plaintiffs' claims unfounded, three years after the updated Firefly Aerospace was a significant success. The lawsuit is pending. [30]

In February 2021, NASA awarded approximately US$93.3 million to Firefly Aerospace to develop exploration technologies for Artemis Commercial Moon Delivery in 2023. [31]

The company completed its $75 million Series A investment round in May 2021, which was led by DADA Holdings. [32]

Firefly launched its first test flight on September 3, 2021. The Firefly Alpha rocket experienced an anomaly during ascent, and the Range terminated the flight using the explosive Flight Termination System (FTS). [33]

In late November 2021, Maxim Polyakov received a letter from the US Committee on Foreign Investment (CFIUS) asking Polyakov and his investment firm Noosphere Venture Partners to sell a stake in Firefly (nearly 50%) for national security reasons. Polyakov denied the threat to US national security, but agreed to comply. Noosphere Ventures has announced that it will hire an investment banking firm to sell. Even before the start of the Russian invasion of Ukraine, the future of the Firefly R&D center in Ukraine was uncertain; after the invasion started, the Dnipro factory was bombed and many of the Ukrainian engineers either joined the army or fled the country. [34] [35]

Even after Noosphere and Polyakov sold their controlling stake in the company, the US government continued to push them to sell all their remaining shares, blocking Firefly from launching their second rocket and denying them launch licenses until Polyakov was completely divested.[ citation needed ] The government did not give reasons beyond Polyakov was Ukrainian and Ukraine and Russia had once worked together on rockets. [35] Despite Polyakov's anger, [35] he agreed, and on February 24, 2022, it was announced that Polyakov and his company Noosphere would sell their stake in Firefly to AE Industrial Partners. [36]

In August 2022, Northrop Grumman announced that it had contracted Firefly Aerospace to build the Antares rocket's new 300-series' first stage, which is similar to Firefly's in-development MLV launch vehicle, and features the same composite structures as well as seven Miranda engines producing 7,200 kN (1,600,000 lbf) of thrust — substantially greater than the previous 200-series first stage. Northrop Grumman states that the new first stage substantially increases the mass capability of Antares. [37] [38]

On October 1, 2022, Firefly launched the Alpha rocket on its second test flight “To the Black” from Space Launch Complex 2 from Vandenberg Space Force Base. Alpha completed all objectives (that Firefly had itself placed) for the mission, becoming the first orbital rocket to be powered by a tap-off cycle engine. The mission was the first partially successful orbital launch for Alpha, carrying educational payloads. Alpha deployed 7 satellites, however, due to the lower than intended final deployment orbit, most of the satellites re-entered approximately a week after launch.

On September 14, 2023, Firefly successfully launched the Alpha rocket on its first mission for the United States Department of Defense, placing a spacecraft for Millenium Space into orbit and demonstrating rapid response launch for the United States Armed Forces. [39]

In 2024, it was announced that Firefly would compete with the likes of Rocket Lab and SpaceX for small satellite launch contracts with the United States Department of Defense. [40]

In July 2024, CEO Bill Weber resigned amid reports the company was investigating an alleged inappropriate relationship. Peter Schumacher, a board member, served as interim CEO while the company searched for a new CEO. [41] On August 29, 2024, it was announced that the next CEO would be Jason Kim who served in the role at Millennium Space. [42]

Launch vehicles

Firefly Alpha

Firefly Alpha lifting off the pad at Vandenberg Space Force Base on September 2, 2021. Firefly Alpha 1st Flight.jpg
Firefly Alpha lifting off the pad at Vandenberg Space Force Base on September 2, 2021.

The Alpha vehicle developed by Firefly Aerospace is an expendable launch vehicle capable of lifting 1,030 kg (2,270 lb) to low Earth orbit and 630 kg (1,390 lb) to Sun-synchronous orbit. Firefly's advertised launch price is US$15 million. Alpha is designed to compete with vehicles like Rocket Lab's Electron, ISRO's PSLV, ABL SS's RS1, and Northrop Grumman's Pegasus. It uses four Reaver engines on its first stage and one Lightning engine on its second, with a lightweight carbon composite structure to reduce dry mass, resulting in an improved payload fraction. [43]

Alpha performed its first partially successful orbital launch on October 1, 2022, after an unsuccessful first attempt on September 3, 2021. [44] The first fully successful launch of Alpha took place on September 15, 2023. Firefly launched this mission 27 hours after receiving notice to launch, setting a new national security mission responsive-launch record. [45] The previous responsive-launch record was 21 days in June 2021. [46] [45] Firefly's fourth launch on December 22, 2023 was also partially successful, with the second stage failing to perform its circularization burn, leaving its payload in an elliptical orbit instead. [47]

MLV

Previous designs

Firefly previously pursued a medium-lift launch vehicle design known as Firefly Beta, which consisted of three Alpha cores strapped together. [48] In October 2019, Firefly announced a partnership with Aerojet Rocketdyne to develop a single core rocket potentially powered by Rocketdyne's AR1 engine. [49] In 2020, the Beta was redesigned to be a scaled up Alpha. The first stage would be 3.7 m (12 ft) in diameter with 5 Reaver 2 engines capable of delivering 8000 kg to LEO or 5800 kg to SSO inside a 4.7 m (15 ft) fairing. In October 2021, the first Beta launch was planned for the second half of 2024. [50]

Current design

Since its announcement in August 2022, the MLV design has undergone several revisions. [51] Now known as the Medium Launch Vehicle, or MLV, the rocket is now 4.32 m (14.17 ft) in diameter with 7 Miranda engines on the first stage and 1 Vira engine on the second stage. [52] It will be capable of delivering over 16,000 kg to LEO in a 5 m (16.4 ft) fairing. [53] The first MLV launch is scheduled for the second half of 2026 [54] from Wallops Flight Facility in Virginia. MLV will initially be expendable but will eventually "incorporate first-stage reusability." [55] In 2024, the company reported on social media that it was progressing and on track with Miranda engine testing for the MLV. [56] In mid-2024, the company added that the MLV's first stage is being architected for return to launch site landings, and hope to have the technology refined by flight 6 of the vehicle. [57]

Antares 300

Firefly is a subcontractor for the Northrop Grumman Antares series 300, providing the first stage, which consists of a de-rated MLV first stage. The second stage is carried over from the previous Antares 230+. Wallops LP-0A is being retrofitted to support the new, larger, more powerful first stage. [38] [37] [58] In April 2024, the company announced testing was occurring on the Antares 300. [59]

Firefly Gamma

Firefly FRE-R1 engine test, September 2015 Firefly Engine Test.jpeg
Firefly FRE-R1 engine test, September 2015

Firefly Gamma was a concept of a winged rocket to launch small payloads into orbit. It would have been a two-stage-to-orbit partially reusable rocket, with its first stage landing horizontally on a runway. [60] [61]

Lunar landers

Blue Ghost

Blue Ghost is a class of lunar landers designed at Firefly's Cedar Park facility to meet the updated NASA requirements for a Commercial Lunar Payload Services (CLPS) lunar lander. The lander is named after the blue ghost firefly Phausis reticulata . [62]

In mid 2024, it was reported that Blue Ghost remains on track for a Q4 2024 launch. [63]

Genesis (Defunct)

On June 9, 2019, Firefly Aerospace announced that it had signed an agreement with Israel Aerospace Industries (IAI), which owns the intellectual property of the Beresheet lunar lander design, to build a lunar lander named Genesis based on Beresheet. [27] [64] [65] Genesis was proposed for NASA's Commercial Lunar Payload Services (CLPS) to deliver payloads to the surface of the Moon. [27] [64] If selected, Firefly Genesis would have been launched on a Firefly Beta rocket, [64] or a Falcon 9 rocket [65] in late 2022. [66] Due to changing CLPS specifications, Firefly determined that Genesis no longer fit NASA's requirements and started work on a new lunar lander design called Blue Ghost in 2021. [67]

Engines

To date, Firefly is the only organization to develop an orbital-class rocket engine utilizing the combustion tap-off cycle, and the only organization to develop a tap-off cycle engine using RP-1 (highly refined kerosene) and liquid oxygen, also known as a kerolox engine.

This engine type eliminates traditional gas generators and instead opts to "tap off" the main combustion chamber, utilizing the high heat and pressure within it to drive the pumps.

This provides a slight increase in specific impulse and results in a dramatically simpler and lighter engine, in exchange for increased engineering complexity and requiring more exotic materials in order to handle the high heat and pressure. The startup sequence is also more challenging.

As a result of these challenges, tap-off has been largely ignored, with the only other engines using it being the Rocketdyne J-2S and Blue Origin BE-3, which are both hydrolox engines (fueled by liquid hydrogen).

Firefly designed both Reaver and Lightning in close cooperation with Firefly Aerospace Ukraine which had status of Ukrainian subsidiary of Firefly. Firefly Aerospace Ukraine hadn't any relations to other Ukrainian aerospace companies like Yuzhnoye and Yuzhmash. However Yuzhmash was involved in production of some engine components. There were plans to use Yuzhmash for mass production of Firefly engines but these plans were cancelled.

Reaver

Reaver is an expendable rocket engine designed for use on Firefly's Alpha rocket. It produces 184 kilonewtons (41,000 lbf) of thrust and a specific impulse of 295.6 seconds (2.899 km/s). It is powered by RP-1 and liquid oxygen as its fuel and oxidizer, respectively. Reaver is fixed-throttle, meaning it runs at full power from ignition to first stage shutdown (eschewing the typical throttle-down performed by many vehicles at Max-Q to reduce aerodynamic loads) and is ignited with the pyrophoric combination TEA-TEB (also used on the SpaceX Merlin and Rocketdyne F-1). It utilizes a pintle-type injector.

In 2021, The Verge reported that Astra Space had purchased up to 50 modified Reaver engines and a technology transfer to license-build their own version of Reaver in-house for their Rocket 4 vehicle. [68] Astra refers to this engine as Chiron. It is largely the same as Reaver, but Firefly implemented a two-axis hydraulic gimbal and a modified startup sequence to meet Astra's demands, as part of Firefly's space propulsion program. [69]

Lightning

Lightning is a vacuum-optimized engine designed for use on the upper stage of Firefly's Alpha rocket. Lightning produces 70.1 kilonewtons (15,800 lbf) of thrust and a specific impulse of 322 seconds (3.16 km/s). Like Reaver, Lightning uses RP-1 and LOX as its propellants as well as the same combustion tap-off cycle. It is also re-lightable for missions requiring multiple upper stage burns. It uses Firefly's patented "Crossfire" injector design.

Miranda

Miranda is a liquid-fueled rocket engine currently being developed to power the company’s MLV (Medium Launch Vehicle). The Miranda will also be used on the Antares 330 rocket developed by Northrop Grumman. [70]

The Antares previously used a Ukrainian-built first stage with the Russian-built RD-181 engine and production ceased after the Russian invasion of Ukraine. [71] Firefly will also assemble the entire first stage for the Antares 330. [72]

Like Firefly's previous engine's the Miranda will use RP-1 and LOX in a combustion tap-off cycle. It is expected to produce 1,023 kilonewtons (230,000 lbf) of thrust and a specific impulse of 305 seconds (2.99 km/s) in vacuum. [73] [74]

Development began in 2022 and in 2024 Firefly reported substantial progress on testing the engine, with 20 test fires completed. As of June 2024, the Miranda engine had entered production. [72] To support production of the Miranda engine, the MLV and the first-stage for the Antares 300, Firefly expanded its Briggs, Texas facility from 92,000 to 207,000 square feet (8,500 to 19,200 m2). [75]

Firefly said that it has designed the Miranda from its inception for reusability. The company plans to restart the engine multiple times as the rocket performs a return-to-launch-site maneuver for a propulsive landing. [72]

Vira

Vira (formerly known as "Miranda Vacuum," "Viranda," and "Lightning 2") is a vacuum-optimized version of Miranda designed for the upper stage of Firefly's MLV vehicle. Like the Miranda, the engine will be fueled by RP-1 and LOX. It is expected to produce 890 kilonewtons (200,000 lbf) of thrust and a specific impulse of 328 seconds (3.22 km/s) in vacuum. It is relightable for missions requiring multiple upper stage burns. [53] [52]

Elytra

Firefly is developing Elytra, a lineup of orbital transfer vehicles designed to move payloads and satellites from one orbit to another within LEO, GEO, and cislunar space. Elytra would allow smaller rockets (such as Firefly's own Alpha) to deliver larger payloads to more difficult orbits, and enable satellite relocation, servicing, mission extension, and deorbiting.

It comes in 3 versions: Elytra Dawn (the smallest, intended for LEO operations), Elytra Dusk (intended for LEO-to-geostationary transfers), and Elytra Dark (the most capable, intended for long-duration transfers to cislunar space and beyond). Elytra Dark will propel Blue Ghost Mission 2 to lunar orbit and serve as an orbiter, as well as deploy ESA's Lunar Pathfinder payload. [76]

Elytra is named after a firefly's wings and was previously known as SUV (Space Utility Vehicle).[ citation needed ]

Production

Firefly headquarters and factory are located in Cedar Park, Texas. [77] The company has access to about 50,000 ft2 of manufacturing facilities for building composite and metallic components in-house. [21] Firefly will use leased launch sites in California (Vandenberg Space Launch Complex 2) and in Florida (SLC-20). [29] [77]

See also

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References

  1. 1 2 Wistrom, Brent (August 22, 2017). "Once Grounded by Bankruptcy, Firefly Aerospace Appears Ready to Re-Launch". americaninno.com. Archived from the original on August 24, 2017. Retrieved March 27, 2021.
  2. Matisse, Nathan (April 3, 2018). "Staring at Firefly Aerospace's hot rocket-engine flames in a Texas pasture". Ars Technica. Archived from the original on March 17, 2018. Retrieved April 4, 2018.
  3. "Texas-based Firefly makes small and medium launch vehicles for commercial launches to orbit. Its small-launch vehicle" . Retrieved September 18, 2024.
  4. 1 2 3 4 Hutchinson, Lee (November 30, 2014). "Firefly Space Systems charges full-speed toward low Earth orbit". Ars Technica. Archived from the original on December 3, 2014. Retrieved December 1, 2014.
  5. 1 2 Aron, Jacob (July 8, 2014). "Next generation of space cowboys get ready to fly". New Scientist. Archived from the original on November 12, 2020. Retrieved October 5, 2014.
  6. Spacevidcast (now TMRO – see new channel) (August 24, 2014). "Firefly Space – 7.26". Archived from the original on October 9, 2014. Retrieved January 10, 2015 via YouTube.
  7. "Hawthorne-based rocket company to move to Texas". Daily Breeze. September 14, 2014. Archived from the original on October 3, 2014. Retrieved December 3, 2014.
  8. Episode 15: DOWNLINK—Firefly Space Systems — Interview. The Orbital Mechanics. June 23, 2015. Retrieved June 24, 2015.
  9. 1 2 Morring, Frank Jr. (August 25, 2014). "SpaceX Alum Goes After Falcon 1 Market With Firefly". Aviation Week. Archived from the original on October 21, 2014. Retrieved October 17, 2014.
  10. First Rocket Engine Test a Success for Firefly Space Systems Archived October 26, 2016, at the Wayback Machine , press release, September 10, 2015, accessed December 17, 2015
  11. Wall, Mike (September 10, 2015). "New Firefly Rocket Engine Passes Big Test, Will Launch Small Satellites". SPACE.com. Archived from the original on January 5, 2016. Retrieved January 8, 2016.
  12. New Alpha rocket will launch test flights from KSC Archived May 9, 2022, at the Wayback Machine Florida Today, October 15, 2015, accessed December 17, 2015
  13. Messier, Doug (January 12, 2016). "Former Propulsion Chief Accuses Virgin Galactic of Lying About SpaceShipTwo's Safety, Performance". Parabolic Arc. Archived from the original on May 11, 2019. Retrieved May 13, 2019.
  14. 1 2 Foust, Jeff (October 3, 2016). "Firefly Space Systems furloughs staff after investor backs out". SpaceNews. Archived from the original on August 18, 2017. Retrieved October 3, 2016.
  15. Messier, Doug (October 25, 2016). "Virgin Galactic Sues Firefly, Officers for Alleged Misappropriation of Trade Secrets". Parabolic Arc. Archived from the original on May 13, 2019. Retrieved May 13, 2019.
  16. "Firefly Space Systems assets to be sold". SpaceNews. March 15, 2017. Archived from the original on December 16, 2018. Retrieved March 15, 2017.
  17. Messier, Doug (June 5, 2017). "Celebrate Independence Day by Buying a Rocket Test Facility". Parabolic Arc. Archived from the original on May 12, 2019. Retrieved May 13, 2019.
  18. "Max Polyakov | Noosphere Ventures". noosphereventures.com. June 30, 2020. Archived from the original on July 12, 2020. Retrieved July 12, 2020.
  19. "Max Polyakov | maxpolyakov.space". maxpolyakov.space. Archived from the original on March 11, 2018. Retrieved July 12, 2020.
  20. Berger, Eric (February 11, 2019). "After a remarkable resurrection, Firefly may reach space in 2019". Ars Technica. Archived from the original on February 11, 2019. Retrieved February 11, 2019.
  21. 1 2 "Firefly Re-Emerges With Upgraded Alpha Rocket Design | Aviation Week Network". aviationweek.com. Archived from the original on December 18, 2019. Retrieved March 27, 2021.
  22. "The Major Airspace News Of 2017, Including Max Polyakov's Firefly Aerospace". Mighty Gadget. November 3, 2017. Archived from the original on December 1, 2017. Retrieved May 22, 2021.
  23. "Max Polyakov's Firefly Aerospace opens R&D center in Dnipro City, Ukraine". SpaceFlight Insider. May 29, 2018. Archived from the original on May 7, 2021. Retrieved March 9, 2022.
  24. "Firefly Aerospace Opens Research and Development Center in Dnipro, Ukraine – Firefly Aerospace". Archived from the original on August 18, 2019. Retrieved August 18, 2019.
  25. Foust, Jeff (October 10, 2018). "Firefly Aerospace and York Space Systems partner to provide integrated satellite solutions". SpaceNews . Retrieved January 22, 2023.
  26. Daines, Gary (November 29, 2018). "Firefly Aerospace Concept for Launch Vehicle with Moon Lander". NASA. Archived from the original on May 18, 2019. Retrieved January 29, 2019.PD-icon.svg This article incorporates text from this source, which is in the public domain .
  27. 1 2 3 Foust, Jeff (July 9, 2019). "Firefly to partner with IAI on lunar lander". SpaceNews. Archived from the original on July 9, 2019.
  28. Berger, Eric (February 22, 2019). "Firefly planning a major rocket assembly and launch facility in Florida". Ars Technica. Archived from the original on February 22, 2019. Retrieved February 22, 2019.
  29. 1 2 Resurrected Firefly Aerospace will take over a launch site at busy Florida spaceport Archived November 26, 2021, at the Wayback Machine February 22, 2019
  30. "Original Firefly Shareholders Sue Firefly's Markusic, Polyakov Alleging Fraud". December 18, 2019. Archived from the original on June 7, 2020. Retrieved January 1, 2022.
  31. "NASA Selects Firefly Aerospace for Artemis Commercial Moon Delivery in 2023" (Press release). NASA. February 4, 2021. Archived from the original on February 4, 2021. Retrieved March 5, 2021.PD-icon.svg This article incorporates text from this source, which is in the public domain .
  32. "Firefly Completes Oversubscribed $75M Series A and $100M Secondary Transaction". Firefly Aerospace. May 5, 2021. Archived from the original on May 18, 2021. Retrieved October 15, 2021.
  33. "Firefly Alpha explodes during first launch". Archived from the original on October 19, 2021. Retrieved October 15, 2021.
  34. Vance, Ashlee (December 29, 2021). "U.S. Seeks to Oust Ukrainian Owner of Texas Rocket Startup Firefly". Bloomberg. Archived from the original on January 2, 2022. Retrieved January 1, 2022.
  35. 1 2 3 Vance, Ashlee (2023). When the Heavens Went on Sale. HarperCollins. pp. 485–486. ISBN   978-0-06-299887-3.
  36. Foust, Jeff (February 24, 2022). "AE Industrial Partners to acquire stake in Firefly from Noosphere". Space News. Retrieved March 12, 2022.
  37. 1 2 Northrop Grumman (August 8, 2022). "Northrop Grumman Teams with Firefly Aerospace to Develop Antares Rocket Upgrade and New Medium Launch Vehicle" (Press release).
  38. 1 2 Foust, Jeff (August 8, 2022). "Northrop Grumman and Firefly to partner on upgraded Antares". SpaceNews.com.
  39. Berger, Eric (September 15, 2023). "The US military just proved it can get satellites into space super fast". Ars Technica. Retrieved September 15, 2023.
  40. "Firefly Aerospace Tapped to Compete for US Spy Sat Launches". January 26, 2024.
  41. Foust, Jeff (July 18, 2024). "Firefly CEO leaves company". SpaceNews. Retrieved July 22, 2024.
  42. Erwin, Sandra (August 29, 2024). "Firefly names space industry veteran Jason Kim as new CEO". SpaceNews. Retrieved December 10, 2024.
  43. "Alpha Payload User's Guide" (PDF). fireflyspace.com. April 2022. Archived from the original (PDF) on April 7, 2023. Retrieved January 22, 2023.
  44. Sesnic, Trevor (October 1, 2022). "Firefly success with second Alpha flight". NASASpaceFlight . Retrieved October 1, 2022.
  45. 1 2 "New record! Firefly Aerospace launches Space Force mission 27 hours after receiving order". space.com. September 15, 2023. Retrieved December 6, 2023.
  46. "Pegasus XL rocket launches secretive 'space domain awareness' satellite for US Space Force". space.com. June 13, 2021. Retrieved December 6, 2023.
  47. "Fly the Lightning". Firefly Aerospace. Retrieved January 8, 2024.
  48. Clark, Stephen (May 2, 2018). "Firefly's commercial satellite launcher to use Delta 2 pad at Vandenberg". Spaceflight Now. Archived from the original on November 26, 2021. Retrieved May 3, 2018.
  49. Clark, Stephen (October 28, 2019). "Aerojet Rocketdyne, Firefly to collaborate on propulsion". Spaceflight Now. Archived from the original on October 29, 2019. Retrieved October 28, 2019.
  50. Burghardt, Thomas (October 14, 2021). "Reusability on the horizon for small satellite launch providers". NASASpaceFlight . Archived from the original on October 14, 2021. Retrieved October 14, 2021.
  51. "Launch-beta". Firefly Aerospace. Archived from the original on August 12, 2022. Retrieved August 8, 2022.
  52. 1 2 "Firefly Aerospace doubles Texas footprint to support testing of Antares 330, MLV rocket – Spaceflight Now" . Retrieved February 28, 2024.
  53. 1 2 "Medium Launch Vehicle". Firefly Aerospace. Retrieved February 28, 2024.
  54. Foust, Jeff (August 7, 2024). "Firefly signs multi-launch agreement with L3Harris". SpaceNews . Retrieved August 7, 2024. Representatives of Firefly and Northrop said they expected the first flight of MLV to take place in the second half of 2026.
  55. "Firefly Doubles its Footprint and Charts a Course for 'Launch, Land, Orbit'". Payload Space. February 29, 2024. Retrieved March 26, 2024.
  56. "Instagram". www.instagram.com. Retrieved April 10, 2024.
  57. Clark, Stephen (July 2, 2024). "Firefly is building fast and breaking things on path to a reusable rocket". Ars Technica. Retrieved July 4, 2024.
  58. Manley, Scott (August 11, 2022). Firefly Will Replace Russian Engines On Antares Rocket With Beta Booster. Rocket News via Youtube.
  59. "[Video] Firefly Aerospace on LinkedIn: Last week at our Rocket Ranch, Fireflies lifted the first Antares 330/MLV…". www.linkedin.com. Retrieved May 2, 2024.
  60. Henry, Caleb (October 18, 2019). "Firefly partners with Aerojet Rocketdyne, mulls AR1 engine for Beta launch vehicle". SpaceNews. Archived from the original on October 22, 2019.
  61. Firefly Gamma Archived November 26, 2021, at the Wayback Machine , Firefly Aerospace, Accessed on November 30, 2019
  62. "Firefly Aerospace Awards Contract to SpaceX to Launch Blue Ghost Mission to Moon in 2023" (Press release). May 20, 2021. Archived from the original on May 20, 2021. Retrieved May 20, 2021.
  63. "'Gets your blood pumping' | A Central Texas company is headed to the moon". kvue.com. April 19, 2024. Retrieved April 23, 2024.
  64. 1 2 3 Grush, Loren (July 9, 2019). "Israel's failed lunar lander will live on in the design of Firefly Aerospace's new Moon spacecraft". The Verge. Archived from the original on November 26, 2021.
  65. 1 2 Firefly Genesis Archived January 27, 2021, at the Wayback Machine Firefly Aerospace Accessed on September 13, 2019
  66. Clark, Stephen (April 1, 2020). "In parallel with rocket development, Firefly launches lunar lander initiative". Spaceflight Now. Archived from the original on April 4, 2020. Retrieved March 5, 2021.
  67. Foust, Jeff (February 4, 2021). "Firefly wins NASA CLPS lunar lander contract". SpaceNews. Retrieved February 4, 2021.
  68. Roulette, Joey (September 21, 2021). "Launch startups Astra and Firefly ink secret rocket engine IP deal". The Verge. Retrieved June 3, 2023.
  69. "Firefly to Become the Premier Supplier of Rocket Engines and Spaceflight Components for the Emerging New Space Industry". Firefly. Archived from the original on August 12, 2021. Retrieved July 17, 2024.
  70. Foust, Jeff (August 8, 2022). "Northrop Grumman and Firefly to partner on upgraded Antares". SpaceNews . Retrieved June 22, 2024.
  71. Tingley, Brett (November 29, 2023). "Firefly Aerospace's new rocket engine spouts green flames in 1st 'hot fire' test (photo)". Space.com . Retrieved June 22, 2024.
  72. 1 2 3 Clark, Stephen (July 2, 2024). "Firefly is building fast and breaking things on path to a reusable rocket". Ars Technica . Retrieved September 9, 2024.
  73. "New Medium Launch Vehicle". Firefly Aerospace . Retrieved August 16, 2024.
  74. "Northrop Grumman Teams with Firefly Aerospace to Develop Antares Rocket Upgrade and New Medium Launch Vehicle". Firefly Aerospace. August 17, 2022.
  75. Kuhr, Jack (February 29, 2024). "Firefly Doubles its Footprint and Charts a Course for 'Launch, Land, Orbit'". Payload. Retrieved September 17, 2024.
  76. "Elytra".
  77. 1 2 FOX (December 2018). "Austin-area aerospace company selected by NASA for Commercial Lunar Payload Services Contract". KTBC. Archived from the original on December 3, 2018. Retrieved January 29, 2019.
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