Johns Hopkins Applied Physics Lab Instrument to Fly on First NASA-Funded Virgin Galactic Spaceflight
Article ID: 618773
Released: 3-Jun-2014 1:30 PM EDT
Source Newsroom: Johns Hopkins University Applied Physics Laboratory
Newswise — While Earth’s upper atmosphere may soon be a destination for space tourists, scientists from the Johns Hopkins University Applied Physics Laboratory (APL) have set their sights on being among the first to blaze a research trail in this “suborbital” region, with the launch of an instrument to study magnetic activity 50 miles above ground.
APL’s Electromagnetic Field Measurements instrument is one of 12 experiments set to fly on Virgin Galactic’s SpaceShipTwo, as part of the first NASA-funded science mission on a suborbital space plane. During a 90-minute flight – on a launch date to be announced – the instrument will characterize the electromagnetic field inside the spacecraft, to help scientists understand the potential effects of strong external and internally generated fields on the spacecraft and what they carry.
“This data will enable future payloads designed to make scientific observations of Earth’s magnetic field to cancel out interference from the spacecraft,” says APL’s H. Todd Smith, the Electromagnetic Field Measurements principal investigator. “Ultimately, our payload will serve as an integration platform for future scientific research and instrument development activities.”
Scientists hope commercial spacecraft designed for tourism may also provide low-cost access to space for research, instrument development, technology demonstrations and education. These new manned and unmanned vehicles will initially travel to altitudes up to 50 miles – just about 80 kilometers – at costs much lower and with higher frequency than current research rockets.
Researchers refer to this region as the “ignorosphere” because it’s been so difficult to study directly. “It’s too high for balloons and aircraft to reach, yet too low for satellites,” Smith said. “Yet, this is a critical transition region for our atmosphere – approaching the gateway between Earth and outer space – so these new vehicles may afford an unprecedented research opportunity.”
APL is establishing a foothold in the burgeoning field of suborbital space research; the Lab hosted a meeting last summer for scientists to discuss the latest commercial space developments and determine the utility, challenges and interest for aeronomy investigations – studies of the upper atmosphere – enabled by the rapidly emerging commercial suborbital spacecraft industry. APL is also set to launch three more instruments under NASA’s Flight Opportunities program, which leverages commercially available vehicles and platforms to enable technology discoveries.
The flights will allow researchers to demonstrate the viability of their technologies while taking advantage of American commercial access to near-space. “We are at the beginning of a revolutionary new age in which the average person can have access to space,” Smith said. “The sky is literally the limit for the scientific possibilities.”
The Applied Physics Laboratory, a not-for-profit division of The Johns Hopkins University, meets critical national challenges through the innovative application of science and technology. For more information, visit www.jhuapl.edu.