The glider is part of a military weapons program that seeks to reach anywhere in the world within an hour.
The U.S. military lost contact with an unmanned hypersonic glider
shortly after it launched on a test flight today as part of a global
strike weapons program to develop vehicles capable of flying at Mach 20
and reach any target in the world in an hour.
The DARPA glider, called the Falcon Hypersonic Test Vehicle 2 (HTV-2), blasted off from Vandenberg Air Force Base in California atop a Minotaur 4 rocket at 7:45 a.m. PDT.
According to DARPA updates, the test flight appeared to go well
until the glide phase, when monitoring stations lost contact with the
HTV-2 vehicle. [Photos: DARPA Hypersonic Glider's Mach 20 Test]
"Range assets have lost telemetry with HTV2," DARPA officials wrote in a Twitter post about 36 minutes after launch.
Monitoring stations further down range of the vehicle's flight path
over the Pacific Ocean also did not find the hypersonic HTV-2 glider.
The vehicle is designed to crash itself into the ocean at the end of
its mission.
"Downrange assets did not reacquire tracking or telemetry. HTV2
has an autonomous flight termination capability," DARPA officials
wrote.
Whether the test flight met all of its objecties still remains
unclear, but this is the second test flight of the Falcon HTV-2 program
that ended prematurely. An April 2010 test flight ended nine minutes
into flight, also due to loss of contact.
The HTV-2 vehicle was expected to reach suborbital space, then
re-enter Earth's atmosphere and glide at hypersonic speed to
demonstrate controllable flight at velocities of around Mach 20, which
is about 13,000 mph. At that speed, more than 20 times the speed of
sound, a vehicle could fly from New York City to Los Angeles in 12
minutes, DARPA officials said.
A video animation of the HTV-2 flight test
depicts how the the hypersonic vehicle was expected to pop free of its
rocket, then soar through Earth's atmosphere for an inevitable, and
intentional, plunge into the Pacific Ocean at the end of its mission.
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A global strike capability
The HTV-2 is part of a program called Prompt Global Strike called
DARPA (which is short for Defense Advanced Research Projects Agency) to
develop advanced weapons systems with extreme range.
"The ultimate goal is a capability that can reach anywhere in the
world in less than an hour." DARPA officials wrote in a mission
description. "The HTV-2 vehicle is a 'data truck' with numerous sensors
that collect data in an uncertain operating envelope." [7 Sci-Fi Weapons of Tomorrow Here Today]
Hypersonic flight plan for HTV-2 glider
For today's hypersonic flight test,
the HTV-2 vehicle was expected to launch into suborbital space,
separate from its Orbital Sciences Corp.-built Minotaur 4 rocket, then
re-enter the atmosphere. During the re-entry phase, the vehicle was
expected to use rocket thrusters to help maintain its course, according
to a DARPA description.
"Assumptions about Mach 20 hypersonic flight were made from
physics-based computational models and simulations, wind tunnel testing,
and data collected from HTV-2's first test flight — the first real
data available in this flight regime at Mach 20," said Air Force Maj.
Chris Schulz, HTV-2 program manager, in a statement. "It's time to
conduct another flight test to validate our assumptions and gain
further insight into extremely high Mach regimes that we cannot fully
replicate on the ground."
After the re-entry maneuver, the HTV-2 was slated to enter a
pull-up phase to control its speed and altitude ahead of the long glide
back to Earth. During the glide, the vehicle is programmed to perform
maneuvers to test aerodynamic performance, DARPA officials said.
The HTV-2 was expected to end its hypersonic test flight by
performing a roll maneuver to intentionally crash into the Pacific
Ocean. DARPA officials said more than 20 observing stations will
monitor the entire flight from space, land, ships and aircraft.
Hypersonic tests in wind tunnels on the ground can typically
recreate conditions at speeds only up to Mach 15, and only for a few
milliseconds at a time, Schulz said.
"And even then we wouldn't know exactly what to expect based solely
on the snapshots provided in ground testing," Schulz said. "Only
flight testing reveals the harsh and uncertain reality."
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