Northrop Grumman Pegasus
Template:Short description Template:Use American English Template:Use dmy dates Template:Distinguish Template:Infobox Rocket
Pegasus is an air-launched multistage rocket developed by Orbital Sciences Corporation (OSC) and later built and launched by Northrop Grumman. Pegasus is the world's first privately developed orbital launch vehicle.<ref>Template:Cite web</ref><ref>Template:Cite web</ref> Capable of carrying small payloads of up to Template:Cvt into low Earth orbit, Pegasus first flew in 1990 and remained active Template:As of. The vehicle consists of three solid propellant stages and an optional monopropellant fourth stage. Pegasus is released from its carrier aircraft at approximately Template:Cvt using a first stage wing and a tail to provide lift and attitude control while in the atmosphere. The first stage does not have a thrust vector control (TVC) system.<ref name="Pegaus_U_G_2015">Template:Cite web</ref>
History
Pegasus was designed by a team led by Antonio Elias.<ref name="Corporation1989">Template:Citation</ref> The Pegasus's three Orion solid motors were developed by Hercules Aerospace (later Alliant Techsystems) specifically for the Pegasus launcher but using advanced carbon fiber, propellant formulation and case insulation technologies originally developed for the terminated USAF Small ICBM program. The wing and fins' structures were designed by Burt Rutan and his company, Scaled Composites, which manufactured them for Orbital.
- Mass: 18,500 kg (Pegasus), 23,130 kg (Pegasus XL)<ref name="Pegaus_U_G_2015"/>Template:Rp
- Length: 16.9 m (Pegasus), 17.6 m (Pegasus XL)<ref name="Pegaus_U_G_2015"/>Template:Rp
- Diameter: 1.27 m
- Wing span: 6.7 m
- Payload: 443 kg (1.18 m diameter, 2.13 m length)
Started in the spring of 1987,<ref name="Corporation2007">Template:Citation</ref> the development project was funded by Orbital Sciences Corporation and Hercules Aerospace, and did not receive any government funding. Government funding was received to support operational testing.<ref>Template:Cite journal</ref> NASA did provide the use of the B-52 carrier aircraft on a cost-reimbursable basis during the development (captive carry tests) and the first few flights. Two Orbital internal projects, the Orbcomm communications constellation and the OrbView observation satellites, served as anchor customers to help justify the private funding.<ref name=oralhistory>Template:Cite web Template:PD-notice</ref>
There were no Pegasus test launches prior to the first operational launch on 5 April 1990 with NASA test pilot and former astronaut Gordon Fullerton in command of the carrier aircraft. Initially, a NASA-owned B-52 Stratofortress NB-008 served as the carrier aircraft. By 1994, Orbital had transitioned to their "Stargazer" L-1011, a converted airliner which was formerly owned by Air Canada. The name "Stargazer" is an homage to the television series Star Trek: The Next Generation: the character Jean-Luc Picard was captain of a ship named Stargazer prior to the events of the series, and his first officer William Riker once served aboard a ship named Pegasus.<ref>Template:Cite web</ref>
During its 45-launch history, the Pegasus program had three mission failures (STEP-1, STEP-2 and HETI/SAC-B), and two partial failures, (USAF Microsat and STEP-2) followed by 30 consecutive successful flights for a total program success rate of 89 percent.<ref>NASA reviews space access after second Pegasus failure</ref> The first partial failure on 17 July 1991 caused the seven USAF microsatellites to be delivered to a lower than planned orbit, significantly reducing the mission lifetime. The last mission failure on 4 November 1996 resulted in the loss of gamma-burst identifying satellite HETE (High Energy Transient Explorer).<ref>Pegasus clings to its satellite cargo.</ref>
The Pegasus XL, introduced in 1994 has lengthened stages to increase payload performance.<ref>Template:Cite news</ref> In the Pegasus XL, the first and second stages are lengthened into the Orion 50SXL and Orion 50XL, respectively. Higher stages are unchanged; flight operations are similar. The wing is strengthened slightly to handle the higher weight. The standard Pegasus has been discontinued; the Pegasus XL is still active as of 2019. Pegasus has flown 44 missions in both configurations, launching 91 satellites as of October 12, 2019.<ref name="pegasus history">Template:Cite web</ref><ref>Template:Cite web</ref>
Dual payloads can be launched, with a canister that encloses the lower spacecraft and mounts the upper spacecraft. The upper spacecraft deploys, the canister opens, then the lower spacecraft separates from the third-stage adapter. Since the fairing is unchanged for cost and aerodynamic reasons, each of the two payloads must be relatively compact. Other multiple-satellite launches involve "self-stacking" configurations, such as the ORBCOMM spacecraft.
For their work in developing the rocket, the Pegasus team led by Antonio Elias was awarded the 1991 National Medal of Technology by U.S. President George H. W. Bush.
The initial launch price offered was US$6 million, without options or a HAPS (Hydrazine Auxiliary Propulsion System) maneuvering stage. With the enlargement to Pegasus XL and the associated improvements to the vehicle, baseline prices increased. In addition, customers usually purchase additional services, such as extra testing, design and analysis, and launch-site support.<ref name="latest pegagus price"/>
As of 2015, the most recent Pegasus XL to be purchased — a planned June 2017 launch of NASA's Ionospheric Connection Explorer (ICON) mission — had a total cost of US$56.3 million, which NASA notes includes "firm-fixed launch service costs, spacecraft processing, payload integration, tracking, data and telemetry and other launch support requirements".<ref name="latest pegagus price">Template:Cite web Template:PD-notice</ref> A series of technical problems delayed this launch, which finally took place on 11 October 2019.
In July 2019, it was announced that Northrop Grumman had lost the launch contract of the Imaging X-ray Polarimetry Explorer (IXPE) satellite to SpaceX. IXPE had been planned to be launched by a Pegasus XL rocket, and had been designed so as to fit within the Pegasus XL rocket constraints. With the IXPE launch removed from the Pegasus XL rocket, there are currently (as of 12 October 2019, after the launch of ICON) no space launch missions announced for the Pegasus XL rocket. The future (under construction as of 2019) NASA Explorer program mission Polarimeter to Unify the Corona and Heliosphere (PUNCH) was planned to be launched by Pegasus XL; but then NASA decided to merge the launches of PUNCH and another Explorer mission, Tandem Reconnection and Cusp Electrodynamics Reconnaissance Satellites (TRACERS) (also under construction as of 2019). These two space missions, consisting of 6 satellites in total, are to be launched by one launch vehicle. It is expected that a larger launcher will be chosen for this dual mission launch.<ref name=sfn-20190708>Template:Cite news</ref> In August 2022 NASA announced that the 4 microsatellites of the PUNCH constellation will be launched as rideshare payloads together with SPHEREx in April 2025 on a SpaceX Falcon 9 rocket.<ref name="nasa-20220803">Template:Cite web</ref><ref name="nasa4feb21">Template:Cite news Template:PD-notice</ref>
Northrop has one Pegasus XL remaining in its inventory. It is looking for customers for those rockets. Northrop does not plan on retiring the Pegasus XL rocket as of October 2019.<ref>Template:Cite web</ref>
In November 2025, Katalyst Space Technologies announced that it had selected Pegasus XL as the rocket to launch a rescue mission for NASA's Neil Gehrls Swift Observatory, to stave off an uncontrolled re-entry. This would be Pegasus XL's first flight since 2021.<ref>Template:Cite news</ref>
Launch profile
In a Pegasus launch, the carrier aircraft takes off from a runway with support and checkout facilities. Such locations have included Kennedy Space Center / Cape Canaveral Air Force Station, Florida; Vandenberg Air Force Base and Dryden Flight Research Center, California; Wallops Flight Facility, Virginia; Kwajalein Range in the Pacific Ocean, and the Canary Islands in the Atlantic Ocean. Orbital offers launches from Alcantara, Brazil, but no known customers have performed any.
Upon reaching a predetermined staging time, location, and velocity the aircraft releases the Pegasus. After five seconds of free-fall, the first stage ignites and the vehicle pitches up. The 45-degree delta wing (of carbon composite construction and double-wedge airfoil) aids pitch-up and provides some lift. The tail fins provide steering for first-stage flight, as the Orion 50S motor does not have a thrust-vectoring nozzle.
Approximately 1 minute and 17 seconds later, the Orion 50S motor burns out. The vehicle is at over 200,000 feet (61 km) in altitude and hypersonic speed. The first stage falls away, taking the wing and tail surfaces, and the second stage ignites. The Orion 50 burns for approximately 1 minute and 18 seconds. Attitude control is by thrust vectoring the Orion 50 motor around two axes, pitch and yaw; roll control is provided by nitrogen thrusters on the third stage.Template:Citation needed
Midway through second-stage flight, the launcher has reached a near-vacuum altitude. The fairing splits and falls away, uncovering the payload and third stage. Upon burnout of the second-stage motor, the stack coasts until reaching a suitable point in its trajectory, depending on mission. Then the Orion 50 is discarded, and the third stage's Orion 38 motor ignites. It too has a thrust-vectoring nozzle, assisted by the nitrogen thrusters for roll. After approximately 64 seconds, the third stage burns out.Template:Citation needed
A fourth stage is sometimes added for a higher altitude, finer altitude accuracy, or more complex maneuvers. The HAPS (Hydrazine Auxiliary Propulsion System) is powered by three restartable, monopropellant hydrazine thrusters. As with dual launches, the HAPS cuts into the fixed volume available for payload. In at least one instance, the spacecraft was built around the HAPS.
Guidance is via a 32-bit computer and an IMU. A GPS receiver gives additional information. Due to the air launch and wing lift, the first-stage flight algorithm is custom-designed. The second- and third-stage trajectories are ballistic, and their guidance is derived from a Space Shuttle algorithm.Template:Citation needed
Carrier aircraft
The carrier aircraft (initially a NASA B-52, now an L-1011 owned by Northrop Grumman) serves as a booster to increase payloads at reduced cost. Template:Cvt is only about 4% of a low Earth orbital altitude, and the subsonic aircraft reaches only about 3% of orbital velocity, yet by delivering the launch vehicle to this speed and altitude, the reusable aircraft replaces a costly first-stage booster.
In October 2016, Orbital ATK announced a partnership with Stratolaunch Systems to launch Pegasus-XL rockets from the giant Scaled Composites Stratolaunch, which could launch up to three Pegasus-XL rockets on a single flight.<ref>Template:Cite web</ref>
Related projects
Pegasus components have also been the basis of other Orbital Sciences Corporation launchers.<ref>Template:Cite web</ref> The ground-launched Taurus rocket places the Pegasus stages and a larger fairing atop a Castor 120 first stage, derived from the first stage of the MX Peacekeeper missile. Initial launches used refurbished MX first stages.
The Minotaur I, also ground-launched, is a combination of stages from Taurus launchers and Minuteman missiles, hence the name. The first two stages are from a Minuteman II; the upper stages are Orion 50XL and 38. Due to the use of surplus military rocket motors, it is only used for U.S. Government and government-sponsored payloads.Template:Why
A third vehicle is dubbed Minotaur IV despite containing no Minuteman stages. It consists of a refurbished MX with an Orion 38 added as a fourth stage.
The NASA X-43A hypersonic test vehicles were boosted by Pegasus first stages. The upper stages were replaced by exposed models of a scramjet-powered vehicle. The Orion stages boosted the X-43 to its ignition speed and altitude, and were discarded. After firing the scramjet and gathering flight data, the test vehicles also fell into the Pacific.
The most numerous derivative of Pegasus is the booster for the Ground-based Midcourse Defense (GBMD) interceptor, basically a vertical (silo) launched Pegasus minus wing and fins, and with the first stage modified by addition of a Thrust Vector Control (TVC) system.
Launch statistics
Template:Columns-start Template:Column
Rocket configurations
{{ #invoke:Chart | bar chart | float = center | width = 420 | height = 320 | stack = 1 | group 1 = 1:1:0:2:2: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0 | group 2 = 0:0:0:0:1: 1:4:5:5:3: 1:0:1:4:0: 1:1:1:2:0: 0:0:1:1:0: 0:1:0:0:1: 0:1 | group 3 = 0:0:0:0:0: 1:1:0:1:0: 1:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0 | colors = CornflowerBlue: LightBlue: MediumBlue | group names = Standard : XL : Hybrid | x legends = 1990 ::::: 1995 ::::: 2000 ::::: 2005 ::::: 2010 ::::: 2015 ::::: 2020 : }}
Launch sites
{{ #invoke:Chart | bar chart | float = center | width = 420 | height = 320 | stack = 1 | group 1 = 1:1:0:1:2: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0 | group 2 = 0:0:0:1:0: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0 | group 3 = 0:0:0:0:0: 0:0:0:1:0: 0:0:1:2:0: 0:0:0:0:0: 0:0:0:0:0: 0:1:0:0:1: 0:0 | group 4 = 0:0:0:0:1: 2:4:2:3:2: 1:0:0:2:0: 1:1:1:0:0: 0:0:0:1:0: 0:0:0:0:0: 0:1 | group 5 = 0:0:0:0:0: 0:0:1:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0 | group 6 = 0:0:0:0:0: 0:1:2:2:1: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0 | group 7 = 0:0:0:0:0: 0:0:0:0:0: 1:0:0:0:0: 0:0:0:2:0: 0:0:1:0:0: 0:0:0:0:0: 0:0 | colors = Tan: LightBlue: Goldenrod: MediumPurple: HotPink: Green: Turquoise | group names = Edwards : Kennedy : Cape Canaveral : Vandenberg : Gando : Wallops : Kwajalein | x legends = 1990 ::::: 1995 ::::: 2000 ::::: 2005 ::::: 2010 ::::: 2015 ::::: 2020 : }} Template:Columns-endTemplate:Columns-start Template:Column
Launch outcomes
{{ #invoke:Chart | bar chart | float = center | width = 420 | height = 320 | stack = 1 | group 1 = 0:0:0:0:1: 1:1:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0 | group 2 = 0:1:0:0:1: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0 | group 3 = 1:0:0:2:1: 1:4:5:6:3: 2:0:1:4:0: 1:1:1:2:0: 0:0:1:1:0: 0:1:0:0:1: 0:1 | group 4 = 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0 | colors = FireBrick : Orange : ForestGreen: LightBlue | group names = Failure : Partial failure : Success: Planned | x legends = 1990 ::::: 1995 ::::: 2000 ::::: 2005 ::::: 2010 ::::: 2015 ::::: 2020 : }}
Carrier airplane
{{ #invoke:Chart | bar chart | float = center | width = 420 | height = 320 | stack = 1 | group 1 = 1:1:0:2:2: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0:0:0:0: 0:0 | group 2 = 0:0:0:0:1: 2:5:5:6:3: 2:0:1:4:0: 1:1:1:2:0: 0:0:1:1:0: 0:1:0:0:1: 0:1 | colors = SaddleBrown: Gold | group names = B-52 : L-1011 | x legends = 1990 ::::: 1995 ::::: 2000 ::::: 2005 ::::: 2010 ::::: 2015 ::::: 2020 : }}
Launch history
Pegasus has flown 45 missions between 1990 and 2021.<ref name="pegasus history"/>
| Flight No. | Date / time (UTC) | Rocket, Configuration |
Launch site | Payload | Payload mass | Target Orbit<ref name=":3">Template:Cite web</ref> | Actual Orbit<ref name=":3"/> | Customer | Launch outcome |
|---|---|---|---|---|---|---|---|---|---|
| 1 | 5 April 1990 19:10:17 |
Standard (B-52) | Edwards AFB | Pegsat, NavySat | 320.0 x 360.0 km @ 94.00° i | 273.0 x 370.0 km @ 94.15° i | Template:Success | ||
| 2 | 17 July 1991 17:33:53 |
Standard w/ HAPS (B-52) | Edwards AFB | Microsats (7 satellites) | 389.0 x 389.0 km @ 82.00° i | 192.4 x 245.5 km @ 82.04° i | Template:Partial failure | ||
| Orbit too low, spacecraft reentered after 6 months instead of planned 3-years lifetime. | |||||||||
| 3 | 9 February 1993 14:30:34 |
Standard (B-52) | Kennedy Space Center | SCD-1 | 405.0 x 405.0 km @ 25.00° i | 393.0 x 427.0 km @ 24.97° i | Template:Success | ||
| In the final minute of the launch sequence an abort was called by NASA's Range Safety Officer (RSO). Despite the abort call, the launch was reinitiated by then operator Orbital Sciences Corporation's test conductor without coordination with other launch participants.<ref>Template:Cite web</ref><ref name=":4">Template:Cite web</ref> Launch was completed without further issue. In an investigation led by the National Transportation Safety Board (NTSB) found that: fatigue; lack of clear command, control, and communication roles were factors that led to the incident.<ref name=":4" /> | |||||||||
| 4 | 25 April 1993 13:56:00 |
Standard (B-52) | Edwards AFB | ALEXIS – Array of Low Energy X-ray Imaging Sensors | 400.0 x 400.0 km @ 70.00° i | 404.0 x 450.5 km @ 69.92° i | Template:Success | ||
| 5 | 19 May 1994 17:03 |
Standard w/ HAPS (B-52) | Edwards AFB | STEP-2 (Space Test Experiments Platform/Mission 2/SIDEX) | 450.0 x 450.0 km @ 82.00° i | 325.0 x 443.0 km @ 81.95° i | Template:Partial failure | ||
| Orbit slightly low | |||||||||
| 6 | 27 June 1994 21:15 |
XL (L-1011) | Vandenberg AFB | STEP-1 (Space Test Experiments Platform/Mission 1) | - | - | Template:Failure | ||
| Loss of vehicle control 35 seconds into flight, flight terminated. | |||||||||
| 7 | 3 August 1994 14:38 |
Standard (B-52) | Edwards AFB | APEX | 195.0 x >1000 km @ 70.02° i | 195.5 x 1372.0 km @ 69.97° i | Template:Success | ||
| 8 | 3 April 1995 13:48 |
Hybrid (L-1011)Template:Efn | Vandenberg AFB | Orbcomm (2 satellites), OrbView 1 | 398.0 x 404.0 km @ 70.00° i | 395.0 x 411.0 km @ 70.03° i | Template:Success | ||
| 9 | 22 June 1995 19:58 |
XL (L-1011) | Vandenberg AFB | STEP-3 (Space Test Experiments Platform/Mission 3) | - | - | Template:Failure | ||
| Destroyed during second-stage flight | |||||||||
| 10 | 9 March 1996 01:33 |
XL (L-1011) | Vandenberg AFB | REX II | 450.0 x 443.0 km @ 90.00° i | 450.9 x 434.3 km @ 89.96° i | Template:Success | ||
| 11 | 17 May 1996 02:44 |
Hybrid (L-1011) | Vandenberg AFB | MSTI-3 | 298.0 x 394.0 km @ 97.13° i | 293.0 x 363.0 km @ 97.09° i | Template:Success | ||
| 12 | 2 July 1996 07:48 |
XL (L-1011) | Vandenberg AFB | TOMS-EP | 340.0 x 955.0 km @ 97.40° i | 341.2 x 942.9 km @ 97.37° i | Template:Success | ||
| 13 | 21 August 1996 09:47:26 |
XL (L-1011) | Vandenberg AFB | FAST (Fast Auroral Snapshot Explorer) | 350.0 x 4200.0 km @ 83.00° i | 350.4 x 4169.6 km @ 82.98° i | Template:Success | ||
| 14 | 4 November 1996 17:08:56 |
XL (L-1011) | Wallops Flight Facility | HETE, SAC-B | 510.0 x 550.0 km @ 38.00° i | 488.1 x 555.4 km @ 37.98° i | Template:Failure | ||
| Satellites not ejected from third stage | |||||||||
| 15 | 21 April 1997 11:59:06 |
XL (L-1011) | Gando Air Base, Gran Canaria, Spain | Minisat 01, Celestis space burial | 587.0 x 587.0 km @ 151.01° i | 562.6 x 581.7 km @ 150.97° i | Template:Success | ||
| 16 | August 1, 1997 20:20:00 |
XL (L-1011) | Vandenberg AFB | OrbView-2 | 310.0 x 400.0 km @ 98.21° i | 300.0 x 302.0 km @ 98.28° i | Template:Success | ||
| On the line with partial success | |||||||||
| 17 | August 29, 1997 15:02:00 |
XL (L-1011) | Vandenberg AFB | FORTE | 800.0 x 800.0 km @ 70.00° i | 799.9 x 833.4 km @ 69.97° i | Template:Success | ||
| 18 | October 22, 1997 13:13:00 |
XL (L-1011) | Wallops Flight Facility | STEP-4 (Space Test Experiments Platform/Mission 4) | 430.0 x 510.0 km @ 45.00° i | 430.0 x 511.0 km @ 44.98° i | Template:Success | ||
| 19 | December 23, 1997 19:11:00 |
XL w/ HAPS (L-1011) | Wallops Flight Facility | Orbcomm (8 satellites) | 825.0 x 825.0 km @ 45.00° i | 822.0 x 824.0 km @ 45.02° i | Template:Success | ||
| 20 | February 26, 1998 07:07:00 |
XL (L-1011) | Vandenberg AFB | SNOE, BATSAT | 580.0 x 580.0 km @ 97.75° i | 582.0 x 542.0 km @ 97.76° i | Template:Success | ||
| 21 | April 2, 1998 02:42:00 |
XL (L-1011) | Vandenberg AFB | TRACE | 600.0 x 650.0 km @ 97.88° i | 599.9 x 649.2 km @ 97.81° i | Template:Success | ||
| 22 | August 2, 1998 16:24:00 |
XL w/ HAPS (L-1011) | Wallops Flight Facility | Orbcomm (8 satellites) | 818.5 x 818.5 km @ 45.02° i | 819.5 x 826.0 km @ 45.01° i | Template:Success | ||
| 23 | September 23, 1998 05:06:00 |
XL w/ HAPS (L-1011) | Wallops Flight Facility | Orbcomm (8 satellites) | 818.5 x 818.5 km @ 45.02° i | 811.0 x 826.0 km @ 45.02° i | Template:Success | ||
| 24 | October 22, 1998 00:02:00 |
Hybrid (L-1011) | Cape Canaveral | SCD-2 | 750.0 x 750.0 km @ 25.00° i | 750.4 x 767.0 km @ 24.91° i | Template:Success | ||
| 25 | December 6, 1998 00:57:00 |
XL (L-1011) | Vandenberg AFB | SWAS | 635.0 x 700.0 km @ 70.00 ° i | 637.7 x 663.4 km @ 69.91° i | Template:Success | ||
| 26 | March 5, 1999 02:56:00 |
XL (L-1011) | Vandenberg AFB | WIRE – Wide Field Infrared Explorer | 540.0 x 540.0 km @ 97.56° i | 539.0 x 598.0 km @ 97.53° i | Template:Success | ||
| 27 | May 18, 1999 05:09:00 |
XL w/ HAPS (L-1011) | Vandenberg AFB | Terriers, MUBLCOM | 550.0 x 550.0 km @ 97.75° i,
775.0 x 775.0 km @ 97.75° i |
551.0 x 557.0 km @ 97.72° i,
774.0 x 788.0 km @ 97.72° i |
Template:Success | ||
| 28 | December 4, 1999 18:53:00 |
XL w/ HAPS (L-1011) | Wallops Flight Facility | Orbcomm (7 satellites) | 825.0 x 825.0 km @ 45.02° i | 826.5 x 829.0 km @ 45.02° i | Template:Success | ||
| 29 | June 7, 2000 13:19:00 |
XL (L-1011) | Vandenberg AFB | TSX-5 (Tri-Service-Experiments mission 5) | 405.0 x 1.750.0 km @ 69.00° i | 409.9 x 1,711.7 km @ 68.95° i | Template:Success | ||
| 30 | October 9, 2000 05:38:00 |
Hybrid (L-1011) | Kwajalein Atoll | HETE 2 | 600.0 x 650.0 km @ 2.00° i | 591.9 x 651.9 km @ 1.95° i | Template:Success | ||
| 31 | February 5, 2002 20:58:00 |
XL (L-1011) | Cape Canaveral | RHESSI | 600.0 x 600.0 km @ 38.00° i | 586.4 x 602.0 km @ 38.02° i | Template:Success | ||
| 32 | January 25, 2003 20:13:00 |
XL (L-1011) | Cape Canaveral | SORCE | 645.0 x 645.0 km @ 40.00° i | 622.3 x 647.3 km @ 39.999° i | Template:Success | ||
| 33 | April 28, 2003 11:59:00 |
XL (L-1011) | Cape Canaveral | GALEX – Galaxy Evolution Explorer | 690.0 x 690.0 km @ 29.00° i | 689.8 x 711.3 km @ 28.99° i | Template:Success | ||
| 34 | June 26, 2003 18:53:00 |
XL (L-1011) | Vandenberg AFB | OrbView-3 | 369.0 x 470.0 km @ 97.29° i | 367.1 x 440.5 km @ 97.27° i | Template:Success | ||
| 35 | August 13, 2003 02:09:00 |
XL (L-1011) | Vandenberg AFB | SCISAT-1 | 650.0 x 650.0 km @ 73.92° i | 647.9 x 659.7 km @ 73.95° i | Template:Success | ||
| 36 | April 15, 2005 17:26:00 |
XL w/ HAPS (L-1011) | Vandenberg AFB | DART | 538.7 x 566.7 km @ 97.73° i | 541.2 x 548.8 km @ 97.73° i | Template:Success | ||
| 37 | March 22, 2006 14:03:00 |
XL (L-1011) | Vandenberg AFB | ST-5 – Space Technology 5 (3 satellites) | 300.0 x 4500.0 km @ 105.6° i | 301.1 x 4571.0 km @ 105.62° i | Template:Success | ||
| 38 | April 25, 2007 20:26:00 |
XL (L-1011) | Vandenberg AFB | AIM – Aeronomy of Ice in the Mesosphere | Template:Cvt<ref name=":2">Template:Cite web</ref> | 600.0 x600.0 km @ 97.77° i | 601.3 x 596.2 km @ 97.79° i | NASA<ref name=":2" /> | Template:Success |
| 39 | April 16, 2008 17:02:00 |
XL (L-1011) | Kwajalein Atoll | C/NOFS | Template:Cvt<ref name=":1">Template:Cite web</ref> | 400.0 x 850.0 km @ 13.0° i | 401.0 x 868.0 km @ 12.99° i | STP / AFRL / DMSG<ref name=":1" /> | Template:Success |
| 40 | October 19, 2008 17:47:23 |
XL (L-1011) | Kwajalein Atoll | IBEX – Interstellar Boundary Explorer | Template:Cvt<ref>Template:Cite web</ref> | 207.0 x 412.0 km @11.0° i | 206.4 x 445.0 km @ 10.99° i | NASA | Template:Success |
| 41 | June 13, 2012 16:00:00 |
XL (L-1011) | Kwajalein Atoll | NuSTAR – Nuclear Spectroscopic Telescope Array | Template:Cvt<ref name="NuSTARPressKit">Template:Cite web</ref> | ≥530.0 x ≤660.0 km @ 5.0 – 7.0° i | 621.2 x 638.5 km @ 6.024° i | NASA / JPL | Template:Success<ref name="nustar pdf">Template:Cite web</ref> |
| 42 | June 28, 2013 02:27:46<ref>Template:Cite web</ref> |
XL (L-1011) | Vandenberg AFB | IRIS – Interface Region Imaging Spectrograph SMEX | Template:Cvt<ref name="IRIS"/> | ≥620.0 x ≤670.0 km @97.89° i | 622.9 x 669.3 km @ 97.894° i | NASA | Template:Success<ref name="IRIS">Template:Cite web</ref> |
| 43 | December 15, 2016 13:37:00 |
XL (L-1011) | Cape Canaveral | Cyclone Global Navigation Satellite System (CYGNSS)<ref name="CYGNSS">Template:Cite web</ref> | Template:Cvt<ref>Template:Cite web</ref> | 510.0 x 6888.0 km @ 35° i | 511.5 x 6908.1 km @ 34.97° i | NASA | Template:Success<ref name="nsf20161215">Template:Cite web</ref> |
| 44 | 11 October 2019 01:59:05 |
XL (L-1011) | Cape Canaveral | Ionospheric Connection Explorer (ICON) | Template:Cvt<ref>Template:Cite web</ref><ref name=":0">Template:Cite web</ref> | LEO, 590 x 607 km<ref name=":0"/> | 608.4 x 571.6 @ 26.98° i | UC Berkeley SSL / NASA | Template:Success<ref name="nsf20191011">Template:Cite web</ref> |
| 45 | 13 June 2021 08:11<ref>Template:Cite web</ref><ref>Template:Cite web</ref> |
XL (L-1011) | Vandenberg Space Force Base | TacRL-2 (Odyssey) | Template:Cvt | LEO - |
U.S. Space Force | Template:Success<ref>Template:Cite web</ref> | |
Planned launches
| Date / time (UTC) | Rocket, Configuration |
Launch site | Payload | Orbit | Customer |
| June 2026 <ref name="Katalyst">Template:Cite news</ref> | XL (L-1011) | Kwajalein Atoll | Katalyst Link Spacecraft | LEO, ~400km x 400km @ 20.6°<ref name="Katalyst"/><ref>Template:Cite web</ref> | Katalyst Space Technologies |
Launch failures
- Flight F-6, 27 June 1994: The vehicle lost control 35 seconds into flight, telemetry downlink lost 38 seconds into flight, range safety commanded flight termination 39 seconds into flight. The likely reason for loss of control was improper aerodynamic modelling of the longer (XL) version of which this was the first flight. The Pegasus carried the DoD Space Test Program's satellite - Space Test Experiments Platform, Mission 1 (STEP-1).
- Flight F-9, 22 June 1995: The interstage ring between the 1st and 2nd stages did not separate, constraining movement of the 2nd-stage nozzle. As a result, the rocket deviated from its intended trajectory and was ultimately destroyed by range safety. The Pegasus carried the DoD Space Test Program's satellite - Space Test Experiments Platform, Mission 3 (STEP-3).
- Flight F-14, 4 November 1996: Failed to separate payloads because of a discharged battery intended to start separation pyros. Battery damage during launch was the likely reason. The lost payloads were the High Energy Transient Explorer and Argentina's SAC-B satellite.
Partial successes
- Flight F-2, 17 July 1991: A faulty pyrotechnic system caused the rocket to veer off course during 1st-stage separation, resulting erratic maneuvers that prevented the rocket reaching the correct orbit, and the mission life, planned for 3 years, was reduced to 6 months.<ref>Template:Cite book</ref>
- Flight F-5, 19 May 1994: A software navigation error caused the HAPS upper stage to shut down early, resulting in a lower than planned orbit. The Pegasus carried the DoD Space Test Program's satellite - Space Test Experiments Platform, Mission 2 (STEP-2).
See also
- Air launch to orbit
- Comparison of orbital launchers families
- Comparison of orbital launch systems
- Pegasus II (rocket)
References
External links
- Pegasus/ICON website at Northrop Grumman Template:Webarchive
- Pegasus at Encyclopedia Astronautica
- The Pegasus XL Rocket Template:Webarchive
Template:Air-launched launchers Template:USAF space vehicles Template:Expendable launch systems Template:US launch systems