NASA Selects New Suborbital Payloads, Total Tops 100 Experiments

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June 7, 2013

David E. Steitz 
Headquarters, Washington 
202-358-1730 
david.steitz@xxxxxxxx 

Rachel Hoover 
Ames Research Center, Moffett Field, Calif. 
650-604-4789 
rachel.hoover@xxxxxxxx 

Leslie Williams 
Dryden Flight Research Center, Edwards, Calif. 
661-276-3893 
leslie.a.williams@xxxxxxxx 

RELEASE: 13-176

NASA SELECTS NEW SUBORBITAL PAYLOADS, TOTAL TOPS 100 EXPERIMENTS

WASHINGTON -- NASA has selected 21 space technology payloads for 
flights on commercial reusable launch vehicles, balloons, and a 
commercial parabolic aircraft. 

This latest selection represents the sixth cycle of NASA's continuing 
call for payloads through an announcement of opportunity. More than 
100 technologies with test flights now have been facilitated through 
NASA's Space Technology Mission Directorate's Flight Opportunities 
Program. 

"This new group of payloads, ranging from systems that support 
cubesats to new sensors technology for planetary exploration, 
represent the sorts of cutting-edge technologies that are naturally 
suited for testing during returnable flights to near-space," said 
Michael Gazarik, NASA's associate administrator for space technology 
in Washington. "NASA's Flight Opportunities Program continues to 
mature this key technology development pipeline link, thanks to 
America's commercial suborbital reusable vehicles providers." 

Fourteen of these new payloads will ride on parabolic aircraft 
flights, which provide brief periods of weightlessness. Two will fly 
on suborbital reusable launch vehicle test flights. Three will ride 
on high-altitude balloons that fly above 65,000 feet. An additional 
payload will fly on both a parabolic flight and a suborbital launch 
vehicle, and another will fly on both a suborbital launch vehicle and 
a high-altitude balloon platform. These payload flights are expected 
to take place now through 2015. 

Flight opportunities currently include the Zero-G Corporation 
parabolic airplane under contract with the Reduced Gravity Office at 
NASA's Johnson Space Center in Houston; Near Space Corp. 
high-altitude balloons; and reusable launch vehicles from Armadillo 
Aerospace, Masten Space Systems, UP Aerospace and Virgin Galactic. 
Additional commercial suborbital flight vendors under contract to 
NASA, including XCOR and Whittinghill, also will provide flight 
services. 

Payloads selected for flight on a parabolic aircraft are: 
-- "Technology Maturation of a Dual-Spinning Cubesat Bus," Kerri 
Cahoy, Massachusetts Institute of Technology, Cambridge 
-- "Testing Near-Infrared Neuromonitoring Devices for Detecting 
Cerebral Hemodynamic Changes in Parabolic Flight," Gary Strangman, 
Massachusetts General Hospital, Boston 
-- "Resilient Thermal Panel: Microgravity Effects on Isothermality of 
Structurally Embedded Two Dimensional Heat Pipes," Andrew Williams, 
Air Force Research Laboratory, Albuquerque, N.M. 
-- "Wireless Strain Sensing System for Space Structural Health 
Monitoring," Haiying Huang, University of Texas, Austin 
-- "Monitoring tissue oxygen saturation in microgravity," Thomas 
Smith, Oxford University, United Kingdom 
-- "Testing the deployment and rollout of the DragEN electrodynamic 
tether for Cubesats," Jason Held, Saber Astronautics Australia Pty 
Ltd., Australia 
-- "Creation of Titanium-Based Nanofoams in Reduced Gravity for 
Dye-Sensitized Solar Cell Production," Kristen Scotti, Northwestern 
University, Evanston, Ill. 
-- "Testing a Cubesat Attitude Control System in Microgravity 
Conditions," Eric Bradley, University of Central Florida, Orlando 
-- "Demonstration of Adjustable Fluidic Lens in Microgravity," James 
Schwiegerling, University of Arizona, Tucson 
-- "Optical Coherence Tomography (OCT) in Microgravity," Douglas 
Ebert, Wyle Laboratories, Houston 
-- "DYMAFLEX: DYnamic MAnipulation FLight Experiment," David Akin of 
University, Maryland, College Park 
-- "Characterizing Cubesat Deployer Dynamics in a Microgravity 
Environment," Kira Abercromby, California Polytechnic State 
University, San Luis Obispo 
-- "Demonstration of Food Processing Equipment," Susana Carranza, 
Makel Engineering Inc., Chino, Calif. 
-- "Advanced Optical Mass Measurement System," Jason Reimuller, Mass 
Dynamix Inc., Longwood, Fla. 

Payloads selected for flight on a suborbital reusable launch vehicle 
are: 
-- "Precision Formation Flying Sensor," Webster Cash, University of 
Colorado, Boulder 
-- "Navigation Doppler Lidar Sensor Demonstration for Precision 
Landing on Solar System Bodies," Farzin Amzajerdian, NASA's Langley 
Research Center, Hampton, Va. 

Payloads selected for flight on a high altitude balloon are: 
-- "Planetary Atmosphere Minor Species Sensor," Robert Peale, 
University of Central Florida, Orlando 
-- "Satellite-Based ADS-B Operations Flight Test," Russell Dewey, GSSL 
Inc., Tillamook, Ore. 
-- "Low-Cost Suborbital Reusable Launch Vehicle (sRLV) Surrogate," 
Timothy Lachenmeier, GSSL Inc. 
One payload will be manifested on a parabolic aircraft and a 
suborbital reusable launch vehicle: 
-- "Real Time Conformational Analysis of Rhodopsin using Plasmon 
Waveguide Resonance Spectroscopy," Victor Hruby, University of 
Arizona, Tucson. 

One payload will be manifested on a suborbital reusable launch vehicle 
and a high altitude balloon: 
-- "Test of Satellite Communications Systems on-board Suborbital 
Platforms to provide low-cost data communications for Research 
Payloads, Payload Operators, and Space Vehicle Operators," Brian 
Barnett, Satwest Consulting, Albuquerque, N.M. 

NASA manages the Flight Opportunities manifest, matching payloads with 
flights, and will pay for payload integration and the flight costs 
for the selected payloads. No funds are provided for the development 
of the payloads. 

NASA's Space Technology Mission Directorate, is dedicated to 
innovating, developing, testing and flying hardware for use in the 
agency's future missions. The Flight Opportunities Program is managed 
at NASA's Dryden Flight Research Center in Edwards, Calif. NASA's 
Ames Research Center at Moffett Field, Calif., manages the technology 
maturation activities for the program. 

For more information about NASA's Space Technology Mission Directorate 
and the Flight Opportunities Program, visit: 

http://www.nasa.gov/spacetech 

	
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