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Defense Officials Outline Hypersonics Development Strategy

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The Defense Department has identified hypersonics as one of the highest priority modernization areas, as Russia and China develop their own capable systems.

Hypersonic systems are able to travel on extended flights within the upper atmosphere — 80,000 to 200,000 feet — at speeds near and above Mach 5, and they're able to maneuver in ways that are hard for defenders to predict.

A graphic shows a jet streaking through the sky.
Hypersonic Vehicle
An artist's rendering depicts a hypersonic vehicle.
Credit: NASA's Lewis Research Center
VIRIN: 090828-O-ZZ999-001M

The high-altitude range creates a gap between air defenses and ballistic missile defenses, Mike White, principal director for hypersonics in the office of the undersecretary of defense for research and engineering, said.

White told attendees of the Air Force Association's virtual Aerospace Warfare Symposium that to address these challenges, the department has developed a hypersonics modernization strategy that accelerates the development and delivery of transformational warfighting capabilities. He said the strategy consists of:

  • Developing air-, land-, and sea-launched, conventionally-armed hypersonic strike weapons for highly-survivable, long-range, time-critical defeat of maritime, coastal and inland targets of critical importance on the tactical battlefield.
  • Using comprehensive, layered-defeat of an adversary's tactical hypersonic strike missile capability.
  • Utilizing reusable, hypersonic systems for intelligence, surveillance, reconnaissance and strike, as well as the first stage of a two stage vehicle for rapid access to space.

White said DOD's strategy has four major phases of implementation:

1
Phase 1 is technology development and concept demonstration.
2
Phase 2 is weapon system concept prototype development and demonstration.
3
Phase 3 is the accelerated fielding of prototype weapon system capability.
4
Phase 4 is the creation of acquisition programs and capability phasing plans.
 The hypersonic strategy is being implemented in a highly coordinated set of programs across the military services and agencies and with critical, enabling investments in the industrial base and organic laboratories, as well as working collaboratively with our allies, where appropriate.

"We will deliver strike capability to the warfighter in the early-mid 2020s and a layered hypersonic defense capability — first terminal and then glide phase — in the mid-late 2020s. For reusable systems, our goal is to deliver capability in the early to mid-2030s," White said.

An airman works on an aircraft.
Test Team
Members of the AGM-183A Air-launched Rapid Response Weapon Instrumented Measurement Vehicle 2 test team make final preparations prior to a captive-carry test flight of the prototype hypersonic weapon at Edwards Air Force Base, Calif., Aug. 8, 2020.
Credit: Kyle Brasier, Air Force
VIRIN: 200808-F-DB956-0290C
An engineer works on a hypersonic vehicle.
Model Test
An engineer prepares to test a model of a hypersonic vehicle at NASA's Langley Research Center, Md., Dec. 10, 2009.
Credit: NASA's Langley Research Center
VIRIN: 091210-O-ZZ999-003M

Air Force Brig. Gen. Heath A. Collins, program executive officer for weapons and director of the armament directorate at the Air Force Life Cycle Management Center in the Air Force Materiel Command, said his organization is developing a rapid prototyping program for the AGM-183A air-launched rapid response weapon, dubbed ARRW.

The ARRW program is a boost-glide based hypersonic weapon. Collins said his team is getting ready for the first booster flight test next week. "We're also getting ready to transition into production within about a year on that program, so it will be the first air-launch hypersonic weapon that the Air Force has.

"We're really proud to be in the hypersonics weapon enterprise at this point in this exciting time, and we're just on the cusp of an operational capability," Collins added.

James Weber, senior scientist for hypersonics at the Air Force Research Laboratory, said the lab has a long history in hypersonic science and technology development, beginning in the early 1960s.

Over the last 25 years, the Air Force Research Laboratory has invested over $1.7 billion in hypersonics, he said.

"We have a wide technology portfolio for hypersonics with competencies and test capabilities in aero-aerothermal, propulsion — such as scramjet propulsion and solid rocket motors and liquid rockets, high-temperature materials and structures, manufacturing, guidance and control systems and ordnance systems and also basic research," Weber said, adding that AFRL works closely with other military services and agencies.

A jet streaks through a wind tunnel.
Hypersonic Test
A model of a hypersonic vehicle is tested in a wind tunnel at NASA's Langley Research Center, Md., Dec. 10, 2009.
Credit: NASA's Langley Research Center
VIRIN: 091210-O-ZZ999-001

For instance, Weber said the research laboratory is partnering with the Defense Advanced Research Projects Agency on the hypersonic, air-breathing weapon concept program, as well as the tactical, boost-glide program. "We are partnered with them to develop and demonstrate critical technologies for air-launched hypersonic weapons by FY22," he said.

Weber added that his team is also collaborating with Collins' ARRW project.

Air Force Maj. Gen. Andrew J. Gebara, director of strategic plans, programs and requirements at the Air Force Global Strike Command, said that developing new hypersonics capabilities requires accelerated acquisition strategies once the most promising programs are narrowed down.

Gebara said that over the years, the department has done some amazing testing with hypersonics, but has not followed through to production. What's different this time is that there's a national will to accelerate these programs and get them fielded quickly.

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