Hypersonic missiles are rocket-boosted to high altitude and may be launched from land, sea or air.
They fly far faster than any other weapons – more than 3,000 mph and potentially up to 10,000 mph – which makes them difficult to identify, avoid or shoot down.
After leading the development of this technology area for decades, the U.S. finds itself behind and investing heavily in the technology to try to keep up.
I am a professor of aerospace engineering at the University of Michigan, and one of my primary research areas is in the development of computational models to help design hypersonic vehicles. The research is funded by the government and private industry. I have led studies on hypersonics for the government.
Over the past 60 years, U.S. interest in hypersonic vehicles has waxed and waned.
An early success was the X-15, a hypersonic test aircraft with a maximum speed of 4,500 mph that was flown from 1959 to 1968.
The X-15 flew 199 times and only experienced two failures, of which one resulted in the death of the pilot. It set the stage for the development of the space shuttle, which flew from 1981 to 2011.
The next ramp-up in hypersonic activity was the National Aero-Space Plane Program, from 1986 to 1993, which never built a prototype.
In addition, there were no plans in place for any follow-on at the end of the X-51A program.
Now it seems the U.S. is back in the hypersonic effort in a serious way.
The Pentagon has declared hypersonics to be its number one research and development technical priority. The president’s recent budget request proposes allocating almost $3 billion to develop hypersonic weapons and defense systems against potential adversaries’ hypersonic weapons.
The race for hypersonic supremacy
China and Russia have become increasingly interested in hypersonic weapons in recent years.
Since 2005, China has published more research papers at a key hypersonics conference than any other country or international group. The Chinese have invested in a number of new and impressive hypersonic test facilities. And, China has conducted more hypersonic flight tests recently than the U.S.
Russian President Vladimir Putin recently claimed that his country’s military will begin deploying a hypersonic weapon called the Avangard sometime in 2019.
It’s not yet clear when those countries will be able to deploy hypersonic weapons in any significant numbers, which is why the U.S. has seized upon this moment to step up its efforts.
The recent presidential funding requests for weapons development signal efforts to figure out how to deploy hypersonic weapons from air, sea and land.
Need for a good defense
Most of the U.S. spending appears to be aimed at developing new weapons – but that risks ignoring the key priority of defense. To counter Chinese and Russian development efforts, the Pentagon will need to invest in ways to detect, track and disable or destroy incoming hypersonic weapons.
It is not clear if the types of interceptors that have been developed for defense against slower weapons will be effective against hypersonic missiles. Entirely novel approaches may be needed to defeat this new threat. Examples include high-power lasers and beams of electromagnetic energy.
I believe that to avoid an important gap in U.S. defensive capabilities, American efforts in defense must at least keep up with the progress of other nations in developing hypersonic weapons.
A Russian TV broadcast shines a light on a Navy base that gets little attention from the public.
Dr. Iain D. Boyd is the James E. Knott Professor of Engineering in the Department of Aerospace Engineering at the University of Michigan. His research interests involve the development and application of physical models and computational methods for analysis of nonequilibrium gas and plasma dynamics processes in aerospace systems.