Boom Overture
The Boom Overture is an American supersonic airliner under development by Boom Supersonic, designed to carry 60 to 80 passengers in an all-premium configuration at a cruise speed of Mach 1.7 (approximately 1,122 mph or 1,806 km/h) and with a range of 4,250 nautical miles (7,870 km), enabling transatlantic and transpacific routes in half the time of conventional subsonic flights.[1] Developed by Boom Supersonic, a Denver-based aerospace company founded in 2014, the Overture aims to revive commercial supersonic travel following the retirement of the Concorde in 2003, with a focus on economic viability, safety, and environmental sustainability.[1] The aircraft features a delta-wing design with four aft-mounted turbofan engines called Symphony, which are engineered for efficiency and compatibility with up to 100% sustainable aviation fuel (SAF) to achieve net-zero carbon emissions during flight.[2] Unlike earlier supersonic jets, Overture incorporates advanced aerodynamics and noise-reduction technologies to produce a softer "thump" rather than a disruptive sonic boom, allowing potential overland supersonic flight pending regulatory approval.[1] As of November 2025, Boom has secured 130 orders and pre-orders for the aircraft, including commitments from major carriers such as United Airlines (15 aircraft), American Airlines (up to 20 aircraft), and Japan Airlines (up to 20 aircraft).[3] The Overture's development builds on the successful testing of Boom's XB-1 demonstrator, a one-third-scale prototype that achieved its first supersonic flight on January 28, 2025, at the Mojave Air & Space Port in California, validating key technologies like the aircraft's composite airframe and propulsion systems without generating an audible sonic boom on the ground.[4] In October 2025, the Symphony engine program reached significant milestones, including full-scale testing progress that advances the integration of sustainable propulsion for Overture.[5] Boom targets a first flight of the Overture prototype in 2027 and entry into commercial service by 2029, supported by partnerships with suppliers like StandardAero for maintenance, amid a U.S. regulatory shift that lifted the ban on overland supersonic flights in June 2025.[6][7] These advancements position the Overture as a potential leader in high-speed, low-emission aviation, though challenges remain in scaling production and achieving full certification.[8]Development
Announcement and funding
Boom Supersonic was founded in September 2014 by Blake Scholl, a software entrepreneur and aviation enthusiast, with the primary goal of reviving commercial supersonic passenger travel following the retirement of the Concorde in 2003.[9][10] The company aimed to develop aircraft that could achieve Mach speeds while addressing the economic and environmental challenges that doomed previous supersonic efforts, focusing initially on a demonstrator to validate key technologies. In January 2021, Boom announced the Overture project, its flagship supersonic airliner designed for 65 to 80 passengers, with initial design concepts revealed and a projected timeline for the first test flight in 2027. Further details on the aircraft's configuration, including renderings and performance targets, were shared in subsequent months, building on the company's earlier work toward sustainable high-speed flight.[11] Boom's funding began with seed investments, culminating in a $33 million Series A round in March 2017 led by investors including 8VC, Caffeinated Capital, and Y Combinator, bringing total capital raised to $41 million at that point.[12] The company secured a $100 million Series B in 2019 led by Emerson Collective, followed by a $45 million venture round in April 2021 and another $100 million extension in March 2022 led by Sam Altman with participation from Y Combinator and others.[10] By late 2023, cumulative funding exceeded $700 million across multiple rounds from investors such as Bessemer Venture Partners, Japan Airlines, and individual backers including Paul Graham and Reid Hoffman; as of October 2025, total funding stands at $700 million.[13][14][15] Early partnerships bolstered Boom's technical validation, including collaborations with NASA starting in 2021 on sonic boom research to inform Overture's low-boom design, with wind tunnel testing activities ramping up in 2022 alongside industry partners like Northrop Grumman.[16] The Symphony engine demonstrator, tested from 2022, helped validate propulsion concepts applicable to Overture.[2]Prototype progress
The XB-1 demonstrator aircraft, developed by Boom Supersonic to validate key technologies for the Overture, achieved its maiden flight on March 22, 2024, at the Mojave Air & Space Port in California.[17] This uncrewed test lasted approximately 14 minutes and reached an altitude of 7,000 feet, marking the first independently developed supersonic jet flight in over 50 years.[18] Following this, the XB-1 completed a series of 11 additional human-piloted test flights through late 2024, progressively increasing speed and evaluating systems under challenging conditions.[19] On January 28, 2025, the XB-1 successfully broke the sound barrier during its 12th flight, reaching Mach 1.122 over the Mojave desert without a traditional sonic boom due to its aerodynamic design.[4] This milestone flight, lasting 31 minutes and climbing to 12,000 feet, confirmed the stability of the aircraft's carbon-composite structure and afterburning engines at supersonic speeds.[20] The test program, which concluded in February 2025 with multiple supersonic runs, generated extensive aerodynamic and structural data to inform the scaling of technologies for the full-size Overture airliner.[21] Boom Supersonic plans to roll out the first full-scale Overture prototype in 2027, ahead of its targeted entry into service in 2029.[8] Construction of Overture components, including composite fuselage panels, began testing in late 2024 at Boom's facilities, with production scaling in 2025 at the Overture Superfactory in Greensboro, North Carolina.[22] The airframe incorporates advanced carbon-fiber composites for the fuselage and wings, enabling lightweight construction optimized for Mach 1.7 cruise. Ground testing milestones for the Overture advanced in 2025, including wing assembly using automated composite layup processes to ensure structural integrity under high-speed loads.[23] Subsystem integration tests focused on avionics, with the incorporation of a head-worn vision system from Universal Avionics for enhanced pilot situational awareness, and landing gear evaluations to support the aircraft's 200,000-pound load requirements.[24] These efforts addressed early supply chain hurdles in sourcing high-grade carbon fiber, which were mitigated through diversified supplier partnerships by mid-2025, allowing on-schedule progression.[25]Certification timeline
Boom Supersonic is targeting full type certification for the Overture supersonic airliner from both the Federal Aviation Administration (FAA) and the European Union Aviation Safety Agency (EASA) by 2029. This timeline aligns with the company's development schedule, including the rollout of the first full-scale prototype in 2027 and initial flight tests in 2027. The certification process will involve demonstrating compliance with stringent noise and environmental standards to enable commercial operations. A significant advancement occurred in June 2025 when a U.S. presidential executive order repealed the long-standing ban on overland supersonic flights, directing the FAA to develop appropriate regulations.[26][27][7] Key milestones toward certification include achieving Type Inspection Authorization (TIA) in 2028, which will authorize formal FAA testing of the aircraft's systems and performance. This follows an extensive flight test campaign expected to accumulate over 100 hours on prototypes, validating aerodynamics, propulsion, and systems integration. A critical element is the incorporation of Boomless Cruise technology, which uses atmospheric refraction to prevent audible sonic booms from reaching the ground during supersonic flight up to Mach 1.3; this was successfully demonstrated in XB-1 prototype flights in early 2025. Prototype flight data from the XB-1, including supersonic envelope expansion, directly informs Overture's certification dossier.[28][29] Regulatory challenges center on meeting ICAO Annex 16 Chapter 14 noise standards for subsonic operations and complying with emerging FAA regulations on supersonic overland flight following the 2025 ban repeal. Overture's design achieves Chapter 14 compliance through advanced engine and airframe optimizations, while Boomless Cruise addresses boom concerns by producing only a soft thump on the ground. Acoustic testing conducted during 2025 XB-1 flights, including ground noise measurements and boom propagation analysis, supports these claims and will extend to Overture prototypes.[2][30][31] On the international front, Boom is coordinating with the International Civil Aviation Organization (ICAO) to align with emerging global rules for supersonic operations, including the 2025 adoption of dedicated noise standards for such aircraft. Additionally, Overture incorporates sustainability features certified for up to 100% sustainable aviation fuel (SAF) use, ensuring compatibility with ICAO's carbon reduction goals and facilitating worldwide certification.[32][14]Design
Airframe and aerodynamics
The Boom Overture is configured as a mid-size supersonic airliner capable of carrying 60 to 80 passengers in an all-premium layout, with a fuselage length of 201 feet and a wingspan of 106 feet.[14] This design supports a maximum range of 4,250 nautical miles while cruising at Mach 1.7, enabling efficient transoceanic routes such as New York to London in under four hours.[14] The overall structure incorporates area ruling along the fuselage and wing junctions to minimize wave drag at supersonic speeds, a key feature for maintaining aerodynamic efficiency during high-speed cruise.[33] The airframe is built predominantly from carbon composite materials, which offer substantial weight reductions compared to conventional aluminum alloys used in legacy supersonic aircraft like the Concorde.[34] These composites are lighter, stronger, and more thermally stable, allowing the Overture to achieve its extended range without excessive fuel consumption while withstanding the heat generated at Mach 1.7.[34] By reducing structural weight, the design enhances overall performance and contributes to lower operating costs for airlines.[35] Aerodynamically, the Overture employs a delta-gull wing configuration with swept, contoured surfaces and a higher aspect ratio than traditional delta wings, optimizing lift distribution for both supersonic cruise and subsonic operations during takeoff and landing.[33][36] This layout, refined in a 2022 redesign, includes blunt wingtips and a narrower rear fuselage to improve stability and reduce induced drag, while ensuring compatibility with standard airport gates and runways.[36] For sonic boom mitigation, the aircraft leverages "boomless cruise" technology, operating at speeds up to Mach 1.3 over land where atmospheric refraction prevents audible booms from reaching the ground, thus complying with noise regulations for overland supersonic flight.[37] The cabin emphasizes passenger comfort in a premium environment, featuring spacious all-business-class seating arranged in a 2-2 configuration across a wider fuselage, with large windows for enhanced views and natural light.[1][38] Premium materials and advanced connectivity systems provide a quiet, luxurious experience, with seat pitches exceeding those of the Concorde's 38 inches to accommodate longer flights at high speeds.[38] The design prioritizes noise reduction and thermal management to ensure a serene interior during supersonic transit.[39]Propulsion
The Boom Overture is powered by four Symphony engines, each a purpose-built, twin-spool, medium-bypass turbofan designed specifically for sustained supersonic flight without afterburners.[2] These engines deliver 40,000 lbf (178 kN) of thrust at takeoff, enabling efficient acceleration through the transonic regime and supercruise capability.[40] Optimized for 100% sustainable aviation fuel (SAF), the Symphony incorporates a single-stage, 72-inch hollow-core fan for quiet operation and reduced maintenance needs through vertically integrated manufacturing.[14] In terms of performance, the Symphony engines allow the Overture to cruise at Mach 1.7 (approximately 1,122 mph or 1,806 km/h) while meeting ICAO Chapter 14 noise certification standards, which are quieter than the Concorde's turbojet setup.[2] The propulsion system achieves greater fuel efficiency compared to the Concorde's Olympus 593 engines, primarily through advanced aerodynamics, non-afterburning operation, and SAF compatibility, reducing overall emissions for transoceanic routes.[34] This efficiency supports a range of 4,250 nautical miles with a full passenger load, prioritizing operational sustainability over exhaustive high-thrust bursts.[34] Engine integration on the Overture features four individual nacelles mounted under the delta wing, staggered along its trailing edge to optimize balance and aerodynamic drag.[41] Specialized variable-geometry inlets, developed in collaboration with Collins Aerospace, decelerate incoming supersonic airflow to subsonic speeds before reaching the engine face, ensuring stable combustion and minimizing fuel burn during high-speed flight.[42] This underwing placement enhances weight distribution and stability, complementing the airframe's overall design without requiring thrust vectoring mechanisms. Development of the Symphony is led by Boom Supersonic in partnership with Florida Turbine Technologies for core engine design, GE Additive for advanced manufacturing of complex components, and StandardAero for maintenance, repair, and overhaul support.[2] In 2025, Boom initiated ground testing preparations at the Colorado Air and Space Port, including prototype core validations and ignitor rig tests by November, confirming key performance metrics like thrust output and thermal management ahead of full-scale integration. These efforts aim to certify the engines by the late 2020s, aligning with Overture's entry-into-service timeline.[43]Sustainability features
The Boom Overture features "Boomless Cruise" technology, which shapes shockwaves to prevent the sonic boom from reaching the ground, allowing supersonic speeds up to Mach 1.3 over land without an audible boom and reducing coast-to-coast U.S. flight times by up to 90 minutes. This capability was validated through the XB-1 demonstrator's first supersonic flight in January 2025, conducted in partnership with NASA to capture and analyze shockwave imagery.[29][44][19] Overture is engineered to operate on 100% sustainable aviation fuel (SAF), a drop-in replacement for conventional jet fuel that achieves up to 80% lower lifecycle CO2 emissions compared to traditional subsonic operations on fossil-based fuels. Combined with carbon offsets, this supports Boom's target of net-zero carbon emissions across its operations by 2025 and net-zero emissions company-wide by 2040.[2][45][46] To address airport noise, Overture incorporates quiet supersonic design elements, including a Variable Noise Reduction System that modulates engine thrust during takeoff and landing to achieve noise levels comparable to current subsonic long-haul aircraft, markedly quieter than Concorde's operations.[47][32] For long-term environmental impact, Overture's airframe relies on advanced composite materials that enable high recyclability at end-of-life, integrated into Boom's sustainability strategy to minimize waste and support circular economy principles in aviation manufacturing.[48][49]Market
Orders and partnerships
In June 2021, United Airlines announced an agreement to purchase 15 Overture aircraft, valued at $3 billion at list prices, with options for an additional 35 aircraft.[50][51] This made United the launch customer for Overture, with plans to introduce the aircraft into service by 2029 on transatlantic routes.[52] In August 2022, American Airlines signed an agreement to purchase up to 20 Overture aircraft, placing a deposit and holding options for 40 more.[53] The deal positions American as a key early adopter, focusing on premium transcontinental and international services. Japan Airlines confirmed a pre-order for up to 20 Overture aircraft in 2017, marking the carrier's commitment to supersonic travel for high-demand Asia-Pacific routes. This memorandum of understanding supports Boom's strategy to expand in the Asian market.[3] By late 2025, Boom's order book for Overture totaled 130 aircraft, comprising firm orders, options, and pre-orders primarily from United Airlines, American Airlines, and Japan Airlines.[14] These commitments provide a strong foundation for commercialization, covering initial production needs and demonstrating airline confidence in the program's viability.[54]Target markets
The Boom Overture is primarily targeted at premium transoceanic routes, where its supersonic speed enables significantly reduced flight times compared to subsonic aircraft. For instance, the New York to London route could be completed in approximately 3.5 hours, while Los Angeles to Tokyo might take around 6 hours, appealing to time-sensitive business travelers and high-net-worth leisure passengers who prioritize speed over cost.[55][56][57][58] Boom is expanding into the business aviation sector with plans for an executive variant of the Overture, designed for 12-19 passengers in a high-end configuration. This variant, powered by the Symphony engine, was pitched at the 2025 NBAA-BACE show as a supersonic business jet, with entry into service projected for 2030 to serve corporate and private clients seeking ultra-fast point-to-point travel.[59][60][40] The economic model positions Overture tickets at $5,000 to $10,000 one-way on key routes, comparable to premium business class fares, supported by operating costs projected to be 75% lower than the Concorde's due to advanced aerodynamics, efficient propulsion, and sustainable aviation fuel compatibility. Boom anticipates a market for over 1,000 supersonic aircraft by the mid-2030s, enabling fleet growth to meet demand on high-volume corridors.[8][61][10] In the competitive landscape, Overture differentiates from subsonic widebodies like the Boeing 777X through its Mach 1.7 cruise speed, offering time savings on long-haul routes, while surpassing defunct rivals like Aerion by securing active airline orders and advancing toward certification.[6][62]Specifications
General characteristics
The Boom Overture is designed as a supersonic commercial airliner with a crew consisting of two pilots. It accommodates 60 to 80 passengers in an all-premium, five-abreast seating configuration.[34][63] The aircraft employs an all-composite fuselage construction for its primary structure, paired with a four-engine layout utilizing Symphony medium-bypass turbofan engines, 40,000 lbf (178 kN) thrust each.[23][8] Key dimensions and weights are summarized below:| Parameter | Value |
|---|---|
| Length | 201 ft (61 m) |
| Wingspan | 106 ft (32 m) |
| Height | 36 ft (11 m) |
| Maximum takeoff weight | 170,000 lb (77,000 kg) |