OC
02-08-2003, 09:05 AM
http://www.technologyreview.com/articles/wo_chandler020703.asp?p=0
The sun-baked town of Mojave, CA, with a population of just 3,700, boasts an airport that takes up almost as much area as Los Angeles International. The vast, isolated site, at the mountain-rimmed edge of a wide expanse of high desert plain, has been home to several maverick aerospace companies. Voyager, the extremely lightweight airplane that in 1986 became the first to fly nonstop around the world without refueling, was spawned here. Now, in an unassuming low building at the airport’s edge, the future of space transportation is, just possibly, being born.
Mind you, that future doesn’t look like much yet: a tiny two-seat airplane that resembles a jet fighter with its tail chopped off and stubby winglets installed near its nose. Last July this lightweight craft, dubbed EZ-Rocket, reached a new aviation milestone when pilot Dick Rutan, who had also piloted Voyager, put its twin rocket motors through a pivotal “touch and go” maneuver: taking off, shutting down the engines, landing, firing the motors up again, and taking off without stopping. This represented a new high-water mark in giving airplane-like flexibility and controllability to a rocket-powered craft, a fact that carries heightened significance since the Space Shuttle Columbia catastrophe raised new questions about the viability of the U.S. government’s manned space program.
Each of those two flights lasted less than 15 minutes and never reached altitudes higher than 3,000 meters. But they showed that Xcor Aerospace, the company behind EZ-Rocket, may have the best shot yet at actually giving the world a reusable rocket plane—bringing routine, airline-like operations to the world of rocketry and slashing launch costs to as little as one-tenth those of launching the space shuttle and today’s expendable rockets. Such a craft could, within several years, allow cheap satellite deployment for research and communications and jump-start space tourism. Over a longer time frame, successor craft might provide a New York City–Tokyo passenger flight that takes less than three hours. And because breaking free of Earth’s gravity is the largest cost of every space mission, cheaper launches are essential prerequisites for such visionary ventures as space-based solar collectors that would beam energy to Earth 24 hours a day and precious-metals mining from asteroids.
The sun-baked town of Mojave, CA, with a population of just 3,700, boasts an airport that takes up almost as much area as Los Angeles International. The vast, isolated site, at the mountain-rimmed edge of a wide expanse of high desert plain, has been home to several maverick aerospace companies. Voyager, the extremely lightweight airplane that in 1986 became the first to fly nonstop around the world without refueling, was spawned here. Now, in an unassuming low building at the airport’s edge, the future of space transportation is, just possibly, being born.
Mind you, that future doesn’t look like much yet: a tiny two-seat airplane that resembles a jet fighter with its tail chopped off and stubby winglets installed near its nose. Last July this lightweight craft, dubbed EZ-Rocket, reached a new aviation milestone when pilot Dick Rutan, who had also piloted Voyager, put its twin rocket motors through a pivotal “touch and go” maneuver: taking off, shutting down the engines, landing, firing the motors up again, and taking off without stopping. This represented a new high-water mark in giving airplane-like flexibility and controllability to a rocket-powered craft, a fact that carries heightened significance since the Space Shuttle Columbia catastrophe raised new questions about the viability of the U.S. government’s manned space program.
Each of those two flights lasted less than 15 minutes and never reached altitudes higher than 3,000 meters. But they showed that Xcor Aerospace, the company behind EZ-Rocket, may have the best shot yet at actually giving the world a reusable rocket plane—bringing routine, airline-like operations to the world of rocketry and slashing launch costs to as little as one-tenth those of launching the space shuttle and today’s expendable rockets. Such a craft could, within several years, allow cheap satellite deployment for research and communications and jump-start space tourism. Over a longer time frame, successor craft might provide a New York City–Tokyo passenger flight that takes less than three hours. And because breaking free of Earth’s gravity is the largest cost of every space mission, cheaper launches are essential prerequisites for such visionary ventures as space-based solar collectors that would beam energy to Earth 24 hours a day and precious-metals mining from asteroids.