Rocket Lab Photon
Satellite bus made by Rocket Lab From Wikipedia, the free encyclopedia
Satellite bus made by Rocket Lab From Wikipedia, the free encyclopedia
Photon is a satellite bus based on Rocket Lab's Electron kick stage.[1] It moves satellites into their appropriate orbits once boosted by rockets such as Electron. It is customizable for uses including LEO payload hosting,[2] lunar flybys, and interplanetary missions.[3]
 Interplanetary version of Photon in an Electron fairing | |
| Manufacturer | Rocket Lab |
|---|---|
| Country of origin | United States |
| Specifications | |
| Spacecraft type | Satellite bus |
| Launch mass | 50 kg (110 lb) |
| Payload capacity | 170 kg (370 lb) |
| Equipment | S band payloads |
| Production | |
| Status | Active |
| Launched | 4 |
| Maiden launch | 31 August 2020 |
| Related spacecraft | |
| Derived from | Kick Stage |
Photon uses chemical propulsion for orbit adjustments. It can use a variety of engines, such as the Curie and HyperCurie engines, as well as engines from third-party sources, such as the one powering the EscaPADE mission.[4]
Photon first launched in August 2020 on Rocket Lab's I Can't Believe It's Not Optical mission, where it served as a pathfinder. It has since flown three times. It flew the CAPSTONE mission.[citation needed]
Photon communicates on the S-band.[5] Depending on the orbital inclination (37° to Sun-synchronous orbit), it is expected to have a payload capacity of 170 kg (370 lb).[6][7] The interplanetary version was to have a 40 kg (88 lb) payload capacity.[8]
HyperCurie is an evolution of the Curie engine, which comes in monopropellant and bipropellant versions, while the HyperCurie is hypergolic[9] and electrically pumped.[10]
In April 2019, Rocket Lab announced plans to create a new satellite bus, named Photon, to position small satellites into orbit. Its goal was to reduce complexity and development time, enabling technology demonstrations without developing a full spacecraft. The company aimed to broaden its portfolio and diversify its revenue streams.[11][12] The company announced it was targeting lunar orbit as part of its services, enabled by a bi-propellant propulsion system.[13][14] The development of Photon included working with potential customers, with significant interest from government agencies.[11] The first few Photon satellites would be technology demonstrators before transitioning to operational launches for customers, which started with NASA's CAPSTONE cubesat in June 2022.[11]
Rocket Lab planned to launch Photon to Venus in December 2025, delivering a laser-tunable mass spectrometer to the Venusian atmosphere.[15][16]
Photon is manufactured at Rocket Lab's factory in Huntington Beach, California. It can utilize a variety of engines, including those developed by Rocket Lab itself, such as the Curie and HyperCurie engines, as well as engines from third-party sources, such as the one powering the EscaPADE mission.[4] Photon communicates on S-band. Depending on the orbital inclination (37° to Sun-synchronous orbit), it is expected to have a maximum payload capacity of 170 kg (370 lb).[17] The low Earth orbit version of Photon can take 130 kg (290 lb) to Sun-synchronous orbit.
A modified version of Photon has bigger propellant tanks and the HyperCurie engine for interplanetary missions.[18][19] The interplanetary version has a 40 kg (88 lb) payload capacity.[19] HyperCurie is an evolution of the Curie engine, which comes in a monopropellant version and a bipropellant version, while the HyperCurie is a hypergolic version.[20] HyperCurie is electrically pumped.[21]
The inaugural Photon satellite was the Photon Pathfinder/First Light satellite (COSPAR ID 2020-060A) described by Rocket Lab as its "first in-house designed and built Photon demonstration satellite". It was launched aboard Electron rocket on 31 August 2020 on the 14th Electron mission "I Can't Believe It's Not Optical". First Light had a dual role in the mission: first as the final rocket stage delivering the customer satellite (Capella 2) and then as a standalone satellite undertaking its own orbital mission. The purpose of the First Light standalone mission was to demonstrate the new (as compared to "plain" kick stage) systems for operating in orbit as a long-duration standalone satellite. To demonstrate Photon's payload hosting capabilities, First Light had a low-resolution video camera.[22]
The second formal test, Photon Pathstone, was launched on 22 March 2021 on the 19th Electron mission "They Go Up So Fast".[23] Like First Light, Pathstone first delivered customer satellites to orbit before transitioning into its own satellite operations.[16] Pathstone operations were aimed at building flight heritage and focused on testing systems in preparation for launching NASA's CAPSTONE smallsat mission in June 2022.[23][16] These tests included power and thermal management, attitude control via reaction wheels and communications systems.[16]
The first operational launch for Photon was NASA's CAPSTONE smallsat mission.[24] Qualification of the Photon kick stage for this mission was underway by December 2020.[24] Photon delivered CAPSTONE on a trans-lunar injection (TLI) burn on 6th day from liftoff after performing 6 apogee raising burns at perigee within every 24 hours from liftoff, leading to TLI and a near-rectilinear halo orbit. After this the CAPSTONE was deployed in its journey to the Moon.
After completing all the mission requirements for NASA, Rocket Lab utilised its Photon spacecraft for a low-altitude lunar flyby.[16]
Due to the high amount of customization Photon can undergo, Rocket Lab decided to rebrand Photon and split it into different spacecraft: Explorer, Lightning, Pioneer, and Photon.[25]
Explorer is a high delta-V spacecraft designed for deep space missions. The first Explorer flew in 2022 and delivered CAPSTONE to a trajectory towards the Moon. Currently, two Explorers are being built for the EscaPADE mission. Explorer can be launched on any rocket, depending on the mission profile.
Lightning is designed for LEO constellations and is intended to operate for 12+ years in LEO. It boasts a 3 kW power delivery system and is suited for high-duty-cycle telecommunications and remote sensing.[25] Lightning currently has no flight heritage, with the first launch planned for 2025. Both the satellites (buses) for Globalstar and the Space Development Agency are based on the Lightning architecture.
Pioneer is a highly specialized satellite bus designed to support payloads up to 120 kg for special missions, including re-entry and dynamic space operations. Pioneer first took flight in 2023, supporting a mission for Varda Space Industries where the capsule atop the bus grew crystals of the drug ritonavir. After growing the crystals and experiencing some regulatory hold-ups, the spacecraft returned to Earth and landed in Utah.
Photon is the upgraded version of Rocket Lab's kick stage. It features power, propulsion, and communications systems for delivering payloads to LEO. The first Photon was launched in 2020, deploying a satellite for Capella Space. After deployment, the Photon spacecraft served as a pathfinder.
Mission outcomes1
2020
2021
2022
2023
2024
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Variations5
10
15
20
2020
2021
2022
2023
2024
2025
2026
2027
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| Date/time
(UTC) |
Destination | Photon customer | Launch vehicle | Photon version | Photon engine | Mission outcome |
|---|---|---|---|---|---|---|
| 31 August 2020
03:05:4[26] |
LEO | Rocket Lab | Electron[27] | Photon | Curie | Success |
| Inaugural launch of the Photon satellite bus. After Photon deployed a 100 kg satellite[28] for Capella Space, Photon served as a Pathfinding mission. | ||||||
| 22 March 2021
22:30[29] |
LEO | Rocket Lab | Electron[29] | Photon | Curie[29] | Success |
| The second launch of the Photon satellite bus. "Pathstone" served as a risk reduction demonstration for the CAPSTONE mission which would send a satellite to the moon.[29] It also deployed 7 satellites for BlackSky, Fleet Space, Myriota, Care Weather Technologies, The University of New South Wales’s Canberra Space and U.S. Army’s SMDC. | ||||||
| 28 June 2022
09:55 |
TLI | NASA | Electron[30] | Explorer | HyperCurie[20] | Success |
| Lunar Photon brought the CAPSTONE CubeSat to TLI, CAPSTONE then separated from lunar Photon to get into NRHO around the Moon. The mission served as a pathfinding mission for NASA's upcoming Gateway.[31] | ||||||
| 12 June 2023
20:30[32] |
LEO | Varda Space Industries | Falcon 9[33] | Pioneer | Curie | Success |
| First launch of four. In orbit, the capsule will grow crystals of the drug called ritonavir.[34] After which, Photon reentered the capsule and separated from the capsule. The capsule then fell down to Earth and landed in Utah, where the drugs will be retrieved. The touchdown happen on Feb 21st, 2024.[35] | ||||||
Confirmed upcoming missions for Photon and Photon variants.
| Date/ time
(UTC) |
Planned destination | Customer | Launch vehicle | Photon version | Photon Engine |
|---|---|---|---|---|---|
| NET summer 2024[36] | LEO | Varda Space Industries | Falcon 9 | Pioneer | Curie |
| Second of four[37] Photons for Varda Space Industries | |||||
| NET 2024[36] | LEO | Varda Space Industries | Falcon 9 | Pioneer | Curie |
| Third of four[37] Photons for Varda Space Industries | |||||
| NET 2024[36] | LEO | Varda Space Industries | Falcon 9 | Pioneer | Curie |
| fourth of four[37] Photons for Varda Space Industries | |||||
| NET 2024[38] | Mars | NASA | New Glenn[39] | Explorer | Bipropellant system from Arianespace[40] |
| Rocket Lab received a subcontract from the University of California Berkeley Space Sciences Laboratory (UCBSSL) to design two Photon spacecraft for the EscaPADE mission, set to orbit Mars and study its magnetosphere. The mission, part of NASA's SIMPLEx program, will explore Mars' unique magnetosphere and its relationship with the solar wind, shedding light on the planet's historical climate changes.[38] | |||||
| NLT fall 2025 [41] | LEO | U.S. Space Force | Electron | Pioneer | Curie |
| Mission for SSC, Rocket Lab will build and launch a satellite for TacRS (Tactically Responsive Space). Once on orbit, the spacecraft will conduct a variety of dynamic space operations to demonstrate SDA characterization capabilities with True Anomaly’s spacecraft, the Jackal autonomous orbital vehicle. [42] | |||||
| NET 2025 [43] | Venus | Rocket Lab | Electron[44] | Explorer | HyperCurie[45] |
| First privately funded mission to venus.[44] Photon will examine the Venus cloud layer in search for organic compounds.
The goal is to send a probe to around 48 km altitude where Venus' atmospheric conditions are closer to those found on Earth.[44] | |||||
| NET 2025 | LEO | Globalstar | Unknown | Lightning | Unknown |
| In February 2022, Rocket Lab was awarded a $143 million subcontract by MDA to lead the design and manufacture of 17 spacecraft buses for Globalstar’s new Low Earth Orbit satellites.[46] The launch is planned for no earlier than late 2025. | |||||
| NET 2026 | LEO | Viasat | Unknown | Lightning | Curie |
| Spacecraft bus for Viasat. The Rocket Lab spacecraft will provide the power, communications, propulsion, and attitude control for the mission demonstration. Rocket Lab will incorporate its own satellite components and sub-systems into the spacecraft including star trackers, reaction wheels, solar panels, S-band radios, flight software and ground software, and the new L-band radio in development for the future InCommand service. [47] | |||||
| NET 2027 | LEO | SDA | Unknown | Lightning | Unknown |
| Rocket Lab was selected by the SDA to design and built 18 Tranche 2 Transport Layer-Beta Data Transport Satellites (T2TL - Beta). The launch is planned no earlier than 2027. | |||||
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