List of nuclear fusion companies
From Wikipedia, the free encyclopedia
Commercial fusion is a term used to refer to privately or publicly held companies which aim to sell electricity produced by nuclear fusion. The industry now consists of over 40 companies that have attracted a combined total of more than $7 billion in investment.[1][2]
Commercial fusion companies
Companies pursue various different fusion methods for reactors. Some pursue one method, such as magnetic, inertial, or electrostatic confinement. Some pursue hybrid methods such as magneto–inertial or magneto–electrostatic confinement. More methods exist; see below:
| Company | Years active |
Method | Fuel | Country | Notes |
|---|---|---|---|---|---|
| Acceleron Fusion (formerly NK Labs, LLC) |
2008–2022 (NK Labs) 2023– present (Acceleron) |
Muon-catalyzed | Deuterium - tritium |  United States |
[3][4][5] |
| Avalanche Energy | 2018– present |
Magneto–electrostatic confinement: cusp, colliding beam | Deuterium - tritium | United States |
[6][7] |
| Blue Laser Fusion | 2022– present |
Inertial confinement: optical enhancement cavity (OEC) laser | Proton - boron | United States |
[8][9] |
| Commonwealth Fusion Systems (formerly Compact Fusion Systems) |
2018– present |
Magnetic confinement: tokamak | Deuterium - tritium | United States |
[10][11] Spin-off: Massachusetts Institute of Technology |
| Cortex Fusion Systems | 2021– present |
Inertial confinement: non-thermal, laser | Deuterium - tritium | United States |
[12] |
| Crossfield Fusion Ltd | 2019– present |
Closed orbit, velocity resonant systems |  United Kingdom |
[13] Reactor development ended 2021[14][15] | |
| CTFusion, Inc | 2015–2023 | Magnetic confinement: dynomak | Deuterium - tritium | United States |
Spin-off: University of Washington[16][17][18] |
| Deutelio | 2022– present |
Magnetic confinement: levitated dipole | Deuterium - deuterium |  Switzerland |
[19][15] |
| Electric Fusion Systems, Inc. | 2020– present |
Non-thermal: light element electric fusion (LEEF) | Proton - Lithium-7 | United States |
Rydberg matter method[20][21] |
| EMC2 (Energy Matter Conversion Corporation) | 1985– present |
Magneto-electrostatic confinement: polywell | Deuterium - tritium | United States |
[22][23][24] |
| Energy Singularity Energy Technology | 2021– present |
Magnetic confinement: tokamak | Deuterium - tritium |  China |
[25][26] |
| ENN Energy | 2017– present |
Magnetic confinement: spheromak | Proton - boron | China |
[27][28][11] |
| EX-Fusion | 2021– present |
Inertial confinement: laser | Deuterium - tritium |  Japan |
[29][30] |
| First Light Fusion | 2011– present |
Inertial confinement: impact | Deuterium - tritium | United Kingdom |
[31][32][33][15][34][11] Spin-off: University of Oxford[35] |
| Focused Energy | 2021– present |
Inertial confinement: laser | Deuterium - tritium |  Germany |
[36][37][15][34][38][35] |
| Fuse Energy Technologies Corporation | 2019– present |
Magneto-inertial: magnetized liner | Deuterium - tritium | United States |
[39] |
| Fusion Power Corporation | 2016–2019 | Inertial confinement: heavy ion | Deuterium - tritium | United States |
[40][41] |
| Gauss Fusion | 2022– present |
Magnetic confinement: stellarator | Deuterium - tritium | Germany |
[42][15] |
| General Atomics Fusion Division | 2022– present |
Magnetic confinement: tokamak | Deuterium - tritium | United States |
[43][44][45] |
| General Fusion | 2002– present |
Magneto-inertial: magnetized target | Deuterium - tritium |  Canada |
[46][11] |
| HB11 Energy | 2017– present |
Inertial confinement: non-thermal, laser | Proton - boron |  Australia |
[47][48][49][50][35] |
| Helical Fusion | 2021– present |
Magnetic confinement: stellarator | Deuterium - tritium | Japan |
[51][30] |
| Helicity Space | 2018– present |
Magneto-inertial: plasma jet collider-compressor | Deuterium - deuterium | United States |
[52][53] For spaceflight |
| Helion Energy | 2013– present |
Magneto-inertial: field-reversed configuration collider-compressor | Deuterium - deuterium | United States |
[54][55] |
| Horne Technologies | 2008– present |
Magneto–electrostatic confinement: cusp | Deuterium - deuterium, proton - boron | United States |
[56][57] |
| HyperJet Fusion | 2017– 2022 |
Magneto-inertial: plasmoid imploded by plasma jets | United States |
[58][59][11] | |
| KMS Fusion | 1969–1990 | Inertial confinement: laser | Deuterium - tritium | United States |
[60] Work moved to General Atomics |
| Kyoto Fusioneering | 2019– present |
Magnetic confinement: reactor subsystems | Deuterium - tritium | Japan |
[61][30] Spin-off: Kyoto University[62] |
| LaserFusionX | 2022– present |
Inertial confinement: krypton-fluoride laser | Deuterium - tritium | United States |
[63][38] |
| Lockheed Martin | 2010– present |
Magnetic confinement: cusp | Deuterium - tritium | United States |
[64][11] |
| Longview Fusion Energy Systems | 2021– present |
Inertial confinement: laser | Deuterium - tritium | United States |
[65][34][38][35] |
| LPP Fusion, Inc. (Lawrenceville Plasma Physics) |
2003– present |
Magnetic confinement pinch: dense plasma focus | Proton - boron | United States |
[66] President, chief scientist: Eric J. Lerner |
| Magneto Inertial Fusion Technology Inc. (MIFTI) | 2008– present |
Magneto-inertial: z-pinch | Deuterium - tritium | United States |
[67][68] Spin-off: University of California, Irvine; Division: US Nuclear Corp[69] |
| Marvel Fusion | 2019– present |
Inertial confinement: laser | Proton - boron | Germany |
[70][15][38][35] |
| Norrønt AS (formerly Ultrafusion Nuclear Power) |
2016–2017 (Ultrafusion) 2018– present (Norrønt) |
Muon-catalyzed | Deuterium - tritium |  Norway |
[71] Merged with Norrønt Fusion Energy[72] |
| nT-Tao | 2019– present |
Magnetic confinement: stellarator | Deuterium - tritium |  Israel |
[73][74] |
| NearStar Fusion | 2021– present |
Magneto-inertial: magnetized target, impact | Deuterium - tritium, Deuterium - deuterium, proton - boron | United States |
[75][76][77] |
| Novatron Fusion Group AB | 2019– present |
Magnetic confinement: mirror | Deuterium - tritium |  Sweden |
[78][79][80][81] |
| OpenStar Technologies | 2021– present |
Magnetic confinement: levitated dipole | Deuterium - deuterium (tritium suppressed) |  New Zealand |
[82] |
| Princeton Fusion Systems (formerly Princeton Satellite Systems) |
1992–2017 (Satellite) 2018– present (Fusion) |
Magnetic confinement: field-reversed configuration | Deuterium - deuterium | United States |
[83][84][11] |
| Proxima Fusion | 2023– present |
Magnetic confinement: quasi-isodynamic stellarator | Deuterium - tritium | Germany |
[85] Spin-off: Max Planck Institute for Plasma Physics[15] |
| Realta Fusion | 2022– present |
Magnetic confinement: tandem mirror | Deuterium - tritium | United States |
[86] Spin-off: University of Wisconsin–Madison[87][88] |
| Renaissance Fusion | 2021– present |
Magnetic confinement: stellarator | Deuterium - tritium |  France |
[89][15] |
| Stellarex, Inc | 2022– present |
Magnetic confinement: stellarator | Deuterium - tritium | United States |
[90] Spin-off: Princeton University[62] |
| Shine Technologies | 2005–2017 (Phoenix) 2010– present (Shine) |
Magneto-electrostatic confinement: particle accelerator | Deuterium - tritium | United States |
[91] Spin-off: Phoenix Nuclear Labs, 2010; Focus: producing radioisotopes, not energy[92][93] |
| TAE Technologies (formerly Tri Alpha Energy) |
1998– present |
Magnetic confinement: beam driven field-reversed configuration | Proton - boron | United States |
[94][11] |
| Thea Energy (formerly Princeton Stellarators) |
2022– present |
Magnetic confinement: stellarator | Deuterium - tritium | United States |
[95][62] |
| Tokamak Energy | 2009– present |
Magnetic confinement: tokamak | Deuterium - tritium | United Kingdom |
[96][62] Spin-off: Culham Centre for Fusion Energy |
| Type One Energy Group | 2019– present |
Magnetic confinement: stellarator | Deuterium - tritium | United States |
[97][88] |
| Xcimer Energy Inc. | 2022– present |
Inertial confinement: excimer laser | Deuterium - tritium | United States |
[98][34][35] |
| Zap Energy | 2017– present |
Magnetic confinement: z-pinch | Deuterium - tritium | United States |
[99] Spin-off: University of Washington[18][55][100] |