LauncherOne
LauncherOne Diagram.svg
LauncherOne diagram
ManufacturerVirgin Orbit
Country of originUnited States
Project costUS$700 million[1]
Cost per launchUS$12 million[2]
Size
HeightApprox. 21.3 m (70 ft)[3]
MassApprox. 30 tons
Stages2;[3] potentially: 3.[4]
Capacity
Payload to 500 km SSO[3]
Mass300 kg (660 lb)
Payload to 230 km LEO[3]
Mass500 kg (1,100 lb)
Associated rockets
FamilyAir launch to orbit
ComparableElectron, Vector-H, Falcon 1, Pegasus
Launch history
StatusActive
Launch sites
Total launches4
Success(es)3
Failure(s)1
First flight25 May 2020
Last flight13 January 2022
First stage
Diameter1.8 m (5 ft 11 in)[6][3]
Powered byNewtonThree (N3)
Maximum thrustVacuum: 326.8 kN (73,500 lbf)
Burn timeApprox. 180 seconds
PropellantRP-1/LOX
Second stage
Diameter1.5 m (4 ft 11 in)[6]
Powered byNewtonFour (N4)
Maximum thrustVacuum: 22.2 kN (5,000 lbf)[7]
Burn timeApprox. 360 seconds
PropellantRP-1/LOX

LauncherOne is a two-stage orbital launch vehicle developed and flown by Virgin Orbit that began operational flights in 2021, after being in development from 2007 to 2020. It is an air-launched rocket, designed to carry smallsat payloads of up to 300 kg (660 lb) into Sun-synchronous orbit (SSO),[3] following air launch from a carrier aircraft at high altitude. The rocket is carried to the upper atmosphere on a modified Boeing 747-400, named Cosmic Girl, and released over the Pacific Ocean. Initial work on the program was done by Virgin Galactic, another Virgin Group subsidiary, before a separate entity — Virgin Orbit — was formed in 2017 to complete development and operate the launch service provider business as a separate entity from the passenger-carrying Virgin Galactic business.

The first successful flight was on 17 January 2021, which delivered a payload of 10 CubeSats to low Earth orbit (LEO).[8] Two additional launches also successfully made it to orbit. LauncherOne was the first all liquid-fuelled air-launched orbital rocket.[9] A previous test flight was unsuccessful on 25 May 2020, when the rocket failed to reach space.[10]

From 2007 to 2015, Virgin had intended LauncherOne to be a somewhat smaller vehicle with a 200 kg (440 lb) payload to low Earth orbit. In 2015, Virgin modified the vehicle design to better target their intended market, and increased the vehicle payload capacity to 300 kg (660 lb) launched to a 500 km (310 mi) Sun-synchronous orbit, suitable for CubeSats and small payloads. Virgin Orbit is targeting a launch price around US$12 million for the rocket.[2]

History

Virgin Galactic began working on the LauncherOne concept in 2007,[11] and the technical specifications were first described in some detail in late 2009.[12] The LauncherOne configuration was proposed to be an expendable, two-stage, liquid-fueled rocket air-launched from a White Knight Two carrier aircraft.[13] This would make it a similar configuration to that used by Orbital Sciences' Pegasus, or a smaller version of the StratoLaunch air-launched rocket system.

By 2012, several commercial customers had signed early contracts for launches signaling demand-side support for new small commercial-oriented launch vehicles. These included GeoOptics, Skybox Imaging, Spaceflight Services, and Planetary Resources. Both Surrey Satellite Technology and Sierra Nevada Space Systems were at the time reported to be developing satellite buses "optimized to the design of LauncherOne".[14][15] In October 2012, Virgin announced that LauncherOne would be designed so that it could place 200 kg (440 lb) in Sun-synchronous orbit (SSO).[16] Virgin planned at the time to market the 200 kg (440 lb) payload delivery to Sun-synchronous orbit for under US$10 million per mission,[14] while the maximum payload for low Earth orbit (LEO) missions would be somewhat larger at 500 kg (1,100 lb).[17]

Under plans announced in 2012, the second stage was to be powered by NewtonOne, a 16 kN (3,600 lbf) thrust engine, and the first stage by a scaled-up version called NewtonTwo, with 211 kN (47,000 lbf) of thrust. Design and construction of the first engines was completed by 2014. NewtonOne was tested up to a full-duration burn of five minutes. NewtonTwo made several short-duration firings by early 2014.[17] Ultimately, however, neither NewtonOne nor NewtonTwo would be used on LauncherOne.

In 2015, Virgin Galactic established a 14,000 m2 (150,000 sq ft) research, development, and manufacturing center for LauncherOne at the Long Beach Airport.[18] The company reported in March 2015, that they were on schedule to begin test flights of LauncherOne with its NewtonThree engine by the end of 2016,[19] but they did not achieve that objective.

On 25 June 2015, the company signed a contract with OneWeb Ltd. for 39 satellite launches for its satellite constellation with an option for an additional 100 launches,[20] but in 2018 OneWeb canceled all but four, prompting a lawsuit from Virgin Orbit.[21] OneWeb filed for bankruptcy protection in 2020.[22]

News reports in September 2015 indicated that the heavier payload of 200 kg (440 lb) was to be achieved by longer fuel tanks and use of the recently qualified NewtonThree engine, but this also meant that the Virgin-developed carrier aircraft White Knight Two would no longer be able to lift the rocket to launch altitude, so in December 2015, Virgin announced a change to the carrier plane for LauncherOne to carry the heavier payload. The carrier aircraft subsequently was changed to a used Boeing 747-400,[23] Cosmic Girl, previously operated by Virgin Galactic's sister company, Virgin Atlantic, and purchased outright by Virgin Group from Boeing upon the expiration of that airframe's lease. The 747 will allow a larger LauncherOne to carry the heavier payloads. The modification work on the company's 747 was expected to be completed in 2016, to be followed by orbital test launches of the rocket in 2017.[24][25][26]

It was further announced in December 2015 that the revised LauncherOne would utilize the larger NewtonThree rocket engine on the booster stage, with the NewtonFour powering the second stage.[24] NewtonThree was to be a 260–335 kN (58,000–75,000 lbf)-thrust engine, and began hot-fire testing by March 2015.[19][27] The NewtonFour engine would power the second stage. NewtonThree generate 326.8 kN (73,500 lbf) of thrust while NewtonFour deliver 26.5 kN (6,000 lbf) to the second stage and is capable of multiple restarts.[28]

On 2 March 2017, Virgin Galactic announced that its 200-member LauncherOne team was being spun off into a new company called Virgin Orbit.[29] A subsidiary company of Virgin Orbit called Vox Space was created to carry out business which require strict security requirements.[30][31] As of 2017, the company planned to fly approximately twice a month by 2020.[32]

In September 2017, the first test flights of LauncherOne were delayed to 2018.[32] By June 2018, the Virgin Orbit captive carry flight testing campaign for LauncherOne, including a planned drop test of an unfueled rocket, was licensed to begin in July 2018, and could run for up to six months.[28]

In the event, no LauncherOne test flights occurred in 2018 and were delayed further, to December 2019, with only the carrier aircraft beginning to fly in 2018. The first three test flights of Cosmic Girl, including the pylon but not the rocket, happened on 23, 25 and 27 August 2018.[33][34] A high-speed taxi test, with a rocket mounted beneath the aircraft, took place in early November 2018.[35] The aircraft flew its first test flight with both pylon and rocket attached on 18 November 2018.[36][37]

Flights

Cosmic Girl carrying LauncherOne during the first successful flight in January 2021.
Cosmic Girl carrying LauncherOne during the first successful flight in January 2021.

The maiden flight of LauncherOne took place on 25 May 2020. The flight failed a few seconds after the ignition of the rocket due to a premature shutdown of the first stage engine, caused by a break in a propellant feed line,[38] and the rocket did not reach space. The launch failure was attributed to a failure of a high-pressure liquid oxygen fuel line in the NewtonThree engine. Due to the failure, oxygen was no longer supplied to the engine and the flight was terminated. The issue with the fuel line was addressed by strengthening the broken components.[39][40]

The second launch took place on 17 January 2021, and was the first to successfully reach orbit.[8] The rocket deployed 10 CubeSats for NASA's Educational Launch of Nanosatellites mission (ELaNa 20).[41] Cosmic Girl took off from Mojave Air and Space Port in California at 18:38 UTC. The aircraft launched the LauncherOne rocket at 19:39 UTC.[9] The launch occurred at the altitude of 10,700 m (35,100 ft).[42]

On 17 January 2021, both NewtonThree and NewtonFour performed as expected.[41] During launch, NewtonFour fired twice; once to inject the second stage and the payloads into a transfer orbit, and again to circularize the orbit.[41][43]

Design

LauncherOne is a two-stage air-launched vehicle. The rocket has a diameter of 1.6 m (5 ft 3 in) for the first stage and 1.3 m (4 ft 3 in) for the second stage and payload fairing.[6]

In October 2019, the company announced plans to develop a three-stage variant that would be capable of launching 100 kg (220 lb) to the Moon, 70 kg (150 lb) to Venus, or 50 kg (110 lb) to Mars.[4]

Engines

LauncherOne will be a two-stage air-launched vehicle using Newton engines, RP-1/LOX liquid rocket engines. The second stage was to be powered by NewtonOne, a 211 kN (47,000 lbf) thrust engine. It was originally intended that the first stage will be powered by a scaled-up design of the same basic technology as NewtonOne, called NewtonTwo, with 211.5 kN (47,500 lbf) of thrust. Both engines have been designed, and as of January 2014 first articles have been built. NewtonOne was tested up to a full-duration burn of five minutes. NewtonTwo made several short-duration firings by early 2014.[17]

NewtonThree is a 260–335 kN (58,000–75,000 lbf)-thrust engine, and began hot-fire tests as of March 2015. More recent reports suggest that a NewtonThree will power the first stage of LauncherOne.[19][44]

2015 redesign: new engines, larger payloads, new carrier aircraft

LauncherOne will be launched from this former Virgin Atlantic Boeing 747, named Cosmic Girl.
LauncherOne will be launched from this former Virgin Atlantic Boeing 747, named Cosmic Girl.

News reports in September 2015 indicate that the higher payload is to be achieved by longer fuel tanks and the NewtonThree engine but this will mean that White Knight Two will no longer be able to lift it to launch altitude. The rocket will be carried to launch altitude by a Boeing 747.[45][46] The revised LauncherOne will utilize both the Newton 3 and Newton 4 rocket engines.[24]

In December 2015, Virgin announced a change to the carrier plane for LauncherOne, as well as a substantially-larger design point for the rocket itself. The carrier aircraft will now be a Boeing 747, which will in turn allow a larger LauncherOne to carry heavier payloads than previously planned. The modification work on the particular Boeing 747 that Virgin has purchased is expected to be completed in 2016, to be followed by Orbital test launches of the rocket in 2017.[24]

Intended usage

LauncherOne is designed to launch a 300 kg (660 lb) payload to a 500 km (310 mi) Sun-synchronous orbit (SSO), suitable for CubeSats and small payloads.[47][48] Virgin Orbit has also announced the ability of LauncherOne to send payloads into heliocentric orbit for flybys of Mars, Venus or asteroids.[49]

Launch sites

Mojave Air and Space Port
Mojave Air and Space Port

Virgin Orbit integrate payloads at their headquarters in Long Beach, California.[3]

LauncherOne is launched from its Cosmic Girl Boeing 747-400 carrier, attached to a pylon on the aircraft's left wing, and released over the ocean at a location depending on the desired orbital inclination. This process avoids typical delays for ground launches due to weather and upper-level winds.[3] William Pomerantz of Virgin Orbit has stated that any airport that can support a Boeing 747 may be used, subject to local legislation.[50]

As of 2021, the carrier plane has always lifted off from the Mojave Air and Space Port in California, United States. The company also has plans to use other airports such as Kennedy Space Center in Florida, and Newquay Airport in Cornwall, United Kingdom. Other proposed launch sites include Ellison Onizuka Kona International Airport in Hawaii, José Aponte de la Torre Airport in Puerto Rico,[5] Oita Airport in Japan, and Andersen Air Force Base in Guam.[51]

Past launches

Flight no. Date and time
(UTC)
Launch site Payload Orbit Customer Outcome
1 25 May 2020
19:50[52]
Mojave Air and Space Port, California Launch Demo with "inert test payload" (Starshine 4) and INTERNSAT (intended to remain attached to the upper stage). Low Earth Virgin Orbit Failure
Flight test, maiden orbital flight. Launch failure after successful release and ignition of the NewtonThree engines on the first stage. A high-pressure propellant line broke causing liquid oxygen to stop flowing into the engine. Issue was addressed through strengthening engine components that broke.[40][39] Prior to failure aerodynamics including fins acted as expected.[39]
2 17 January 2021
19:38:51[53][54]
Mojave Air and Space Port, California ELaNa 20 payloads: CACTUS-1, CAPE-3, EXOCUBE-2, MiTEE, PICS 1, PICS 2, PolarCube, Q-PACE, RadFXSat-2, TechEdSat-7.[55] Low Earth NASA Success
Dedicated launch of 10 NASA sponsored CubeSats. First successful launch of LauncherOne and the first fully liquid-fueled air-launched rocket to reach orbit.
3 30 June 2021
14:47[56]
Mojave Air and Space Port, California STP-27VPA, BRIK-II, STORK-4, STORK-5 (MARTA) Low Earth MDA, USA SMDC, U.S. Navy, RNLAF, SatRevolution Success
Tubular Bells, Part One mission.[57] STP-27VPA is composed of four military CubeSats: Gunsmoke-J 3, HALO-Net Free Flyer, and two CNCE Blk 1 satellites.[58]
4 13 January 2022
22:51:39[59]
Mojave Air and Space Port, California STP-27VPB (PAN-A and B, GEARRS-3, TechEdSat-13), SteamSat-2, STORK-3, ADLER-1 (Lemur-2 Krywe). Low Earth Department of Defense, NASA, SteamJet Space Systems, SatRevolution, Austrian Space Forum Success
Above the Clouds mission. STP-27VPB mission for the Defense Innovation Unit is composed of four CubeSats: PAN-A/B (ELaNa 29 mission), GEARRS-3, and TechEdSat-13.

Future launches

Flight no. Date and time
(UTC)
Launch site Payload Orbit Customer
5 29 June 2022[60][61] Mojave Air and Space Port QUEYSSAT,[62] CTIM-FD, GPX-2 Low Earth U.S. Space Force, DND, CU Boulder, Langley Research Center
Straight Up mission. STP-S28A mission for the U.S. Space Force, consisting of 7 satellites. The ELaNa 39 mission, consisting of two CubeSats,[63] will launch on this flight.[64]
6 Summer 2022[65] Cornwall Amber-1,[66] ForgeStar-0,[67] Kernow Sat 1,[68] Prometheus 2A & 2B,[65] First Omani satellite[69] Low Earth Satellite Applications Catapult, Space Forge, University of Exeter, UK Ministry of Defence, NRO, ETCO
First LauncherOne flight from Spaceport Cornwall.
September 2022[70] Mojave Air and Space Port CIRBE,[71] Slingshot-1[70] Low Earth U.S. Air Force, CU Boulder, The Aerospace Corporation
STP-S28B mission.[60] The ELaNa-46 mission, consisting of three CubeSats, will launch on this flight.[64]
Q3 2022[72][73][74] Mojave Air and Space Port SatRevolution Mars mission Areocentric SatRevolution
First commercial smallsat mission to Mars, using the Exploration 3-Stage Variant of LauncherOne.
December 2022[60] Mojave Air and Space Port Low Earth U.S. Air Force
STP-S28C mission.
Q1 2023[75][76] Mojave Air and Space Port HYPERSAT 1 Low Earth HyperSat
First of six launches contracted to Virgin Orbit for HyperSat's hyperspectral satellite constellation.
Q1 2023[77] Mojave Air and Space Port QPS-SAR-5 Low Earth iQPS
2023[78][79] Mojave Air and Space Port QKDSat × 1 Low Earth Arqit
First of two launches contracted to Virgin Orbit for Arqit's QKDSat project.
TBD[78][79] Mojave Air and Space Port QKDSat × 1 Low Earth Arqit
Second of two launches contracted to Virgin Orbit for Arqit's QKDSat project.

Launch statistics

See also

References

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