Monthly Archives: December 2013

Astronomy, Eyes in the Sky, Science and Technology

DARPA project demonstrates imaging with lightweight membrane optics suitable for large space telescopes

Perhaps this technology will be suitable for making telescopes large enough to resolve exoplanets:

First Folding Space Telescope Aims to “Break the Glass Ceiling” of Traditional Designs

MOIRE program creates first-ever images using lightweight membrane optics,
which could help redefine how we build, launch and use orbital telescopes

The capability of orbital telescopes to see wide swaths of the earth at a time has made them indispensable for key national security responsibilities such as weather forecasting, reconnaissance and disaster response. Even as telescope design has advanced, however, one aspect has remained constant since Galileo: using glass for lenses and mirrors, also known as optics. High-resolution imagery traditionally has required large-diameter glass mirrors, which are thick, heavy, difficult to make and expensive. As the need for higher-resolution orbital imagery expands, glass mirrors are fast approaching the point where they will be too large, heavy and costly for even the largest of today’s rockets to carry to orbit.

DARPA’s Membrane Optical Imager for Real-Time Exploitation (MOIRE) program seeks to address these challenges. MOIRE aims to create technologies that would enable future high-resolution orbital telescopes to provide real-time video and images of the Earth from Geosynchronous Earth Orbit (GEO)—roughly 22,000 miles above the planet’s surface. Size and cost constraints have so far prevented placing large-scale imaging satellites in GEO, so MOIRE is developing technologies that would make orbital telescopes much lighter, more transportable and more cost-effective.

Currently in its second and final phase, the program recently successfully demonstrated a ground-based prototype that incorporated several critical technologies, including new lightweight polymer membrane optics to replace glass mirrors. Membrane optics traditionally have been too inefficient to use in telescope optics. MOIRE has achieved a technological first for membrane optics by nearly doubling their efficiency, from 30 percent to 55 percent. The improved efficiency enabled MOIRE to take the first images ever with membrane optics.

While the membrane is less efficient than glass, which is nearly 90 percent efficient, its much lighter weight enables creating larger lenses that more than make up the difference. The membrane is also substantially lighter than glass. Based on the performance of the prototype, a new system incorporating MOIRE optics would come in at roughly one-seventh the weight of a traditional system of the same resolution and mass. As a proof of concept, the MOIRE prototype validates membrane optics as a viable technology for orbital telescopes.

“Membrane optics could enable us to fit much larger, higher-resolution telescopes in smaller and lighter packages,” said Lt. Col. Larry Gunn, DARPA program manager. “In that respect, we’re ‘breaking the glass ceiling’ that traditional materials impose on optics design. We’re hoping our research could also help greatly reduce overall costs and enable more timely deployment using smaller, less expensive launch vehicles.”

Instead of reflecting light with mirrors or refracting it with lenses, MOIRE’s membrane optics diffract light. Roughly the thickness of household plastic wrap, each membrane serves as a Fresnel lens—it is etched with circular concentric grooves like microscopically thin tree rings, with the grooves hundreds of microns across at the center down to only 4 microns at the outside edge. The diffractive pattern focuses light on a sensor that the satellite translates into an image.

MOIRE technology houses the membranes in thin metal “petals” that would launch in a tightly packed configuration roughly 20 feet in diameter. Upon reaching its destination orbit, a satellite would then unfold the petals to create the full-size multi-lens optics. The envisioned diameter of 20 meters (about 68 feet) would be the largest telescope optics ever made and dwarf the glass mirrors contained in the world’s most famous telescopes.

From GEO, it is believed, a satellite using MOIRE optics could see approximately 40 percent of the earth’s surface at once. The satellite would be able to focus on a 10 km-by-10 km area at 1-meter resolution, and provide real-time video at 1 frame per second.

Ball Aerospace and Technologies Company and the U.S. Air Force Academy are the prime contractors for Phase 2 of the MOIRE program.

Eyes in the Sky, Living in Space, Multiple media

A gallery of “jaw-dropping” space station time-lapse videos

Over the past couple of years I’ve shown here a number of the time-lapse videos of imagery of the earth as seen from the International Space Station. Here is a big collection of such videos, accompanied by lots of adjectives struggling mightily to describe what is displayed: The Best, Most Stunning, Jaw-Dropping Space Station Time-Lapses of All Time, Ever – Rebecca J. Rosen/The Atlantic.

An example of those time-lapse videos:

View from the ISS at Night from Knate Myers on Vimeo.

Gas giants Saturn, Jupiter, et al, Space Science

Weird & Wonderful Saturn

New imagery from the Cassini spacecraft orbiting Saturn shows more of its beautiful and sometimes bizarre features: NASA’s Cassini Spacecraft Obtains Best Views of Saturn Hexagon – NASA

This colorful view from NASA’s Cassini mission is the highest-resolution view
of the unique six-sided jet stream at Saturn’s north pole known as “the hexagon.”
Image Credit: NASA/JPL-Caltech/SSI/Hampton
Full image and caption
This infrared movie from NASA’s Cassini mission shows the churning of
the curious six-sided jet stream at Saturn’s north pole known as “the hexagon.”
Image Credit: NASA/JPL-Caltech/University of Arizona 

NASA’s Cassini spacecraft has obtained the highest-resolution movie yet of a unique six-sided jet stream, known as the hexagon, around Saturn’s north pole.

This is the first hexagon movie of its kind, using color filters, and the first to show a complete view of the top of Saturn down to about 70 degrees latitude. Spanning about 20,000 miles (30,000 kilometers) across, the hexagon is a wavy jet stream of 200-mile-per-hour winds (about 322 kilometers per hour) with a massive, rotating storm at the center. There is no weather feature exactly, consistently like this anywhere else in the solar system.

“The hexagon is just a current of air, and weather features out there that share similarities to this are notoriously turbulent and unstable,” said Andrew Ingersoll, a Cassini imaging team member at the California Institute of Technology in Pasadena. “A hurricane on Earth typically lasts a week, but this has been here for decades — and who knows — maybe centuries.”

Weather patterns on Earth are interrupted when they encounter friction from landforms or ice caps. Scientists suspect the stability of the hexagon has something to do with the lack of solid landforms on Saturn, which is essentially a giant ball of gas.

Continue…

Here’s a NASA JPL Google Hangout in which several planetary scientists discuss the latest images and findings from Cassini:

Update: A PBS News Hour interview with Carolyn Porco, a leader of the Cassini imaging group, about the mission and the latest results:

Space Policy

Space policy roundup – Dec.4.13 [Update]

A selection of space policy/politics links:

Update:

Activism, Education, Spaceflight & Parabolic Flight

Challenger Center hosts Google+ Hangout with Virgin Galactic and Galactic Unite

A message from Challenger Center about yesterday’s Google+ Hangout with representatives from Virgin Galactic and Galactic Unite who answered questions from students at several Centers aropimd the US.

Challenger Center Partners with Virgin Galactic and Galactic Unite for Google+ Hangout
Virgin Galactic and Challenger Learning Center Students Fly to the Moon and Discuss Importance of STEM Education

WASHINGTON (December 3, 2013) – Today, Challenger Center, the Washington D.C.-based nonprofit science, technology, engineering and math (STEM) education organization, hosted a Google+ Hangout with representatives from Virgin Galactic and Galactic Unite and several hundred students at Challenger Learning Centers around the country.

Hosted at the Columbia Memorial Space Center’s Challenger Learning Center, the hangout included students at the Challenger Learning Center of Louisville, KY, Challenger Learning Center of New Mexico – Unser Discovery Campus; Challenger Learning Center of Tallahassee; and University of Tennessee at Chattanooga Challenger STEM Learning Center.

“Today’s event was a perfect opportunity to give Challenger Learning Center students the chance to connect their classroom lessons and Challenger Center missions to the real world,” said Kathleen Meehan Coop, vice president of education, Challenger Center. “We are constantly finding new ways to excite students about STEM, and this was an exceptional opportunity. It was great to watch the students energized and engaged with the Virgin Galactic team.”

Throughout the hour long event, students learned more about Virgin Galactic’s efforts to become the world’s first commercial spaceline, what it is like to build and work on future space vehicles, and why STEM subjects are vital for future success. A recording of the event can be viewed at www.challenger.org/galactichangout.

“We are so excited to share our passion for space exploration with the next generation and to inspire them to write the next chapter of space history,” said George Whitesides, CEO, Virgin Galactic.

Several students at each of the Challenger Learning Center locations had the opportunity to ask the Virgin Galactic team questions. At the conclusion of the virtual event, the Virgin Galactic team participated in Challenger Center’s simulated “Return to the Moon” mission with the students in Downey, Calif.

Challenger Center is embarking on a renewed effort to reach even more students and help equip them for future success. In early 2014, the organization is launching revolutionary software and missions that will further improve its education offering. In addition, within the next two years, six new communities will open a Challenger Learning Center. Included in this expansion is the creation of a National STEM Innovation Center in Washington, DC.

About Challenger Center

Using space exploration as a theme and simulation as a vehicle, Challenger Center and its international network of more than 40 Challenger Learning Centers create positive educational experiences that raise students’ expectations of success, foster long-term interest in science, technology, engineering, and mathematics (STEM), and inspire students to pursue studies and careers in these areas. Challenger Center’s network of Challenger Learning Centers across the U.S., Canada, the United Kingdom, and South Korea reach more than 400,000 students each year through simulated space missions and educational programs and engage more than 40,000 educators through missions, teacher workshops, and other programs. Founded in 1986, Challenger Center for Space Science Education was created to honor the seven astronauts of shuttle flight STS-51-L: Commander Dick Scobee, Gregory Jarvis, Christa McAuliffe, Ronald McNair, Ellison Onizuka, Judith Resnik, and Michael J. Smith. To learn more about Challenger Center visit www.challenger.org.

About Galactic Unite

Virgin Galactic and its Future Astronaut customers have teamed up with Virgin Unite, the nonprofit foundation of the Virgin Group, to make a difference in this new age of commercial space travel. Based on the fact that future generations will have opportunities to see the world as never before, Galactic Unite embraces the idea that new advances in science and technology have the potential to unlock answers to global challenges and change the world for the better. Galactic Unite is investing to help future generations make the most of these new advances in three ways: education, entrepreneurship and inspiration. By working together, the future astronauts of Galactic Unite will leverage their knowledge, their resources and their experience to make a positive impact on the world of tomorrow.

About Virgin Galactic

Virgin Galactic, owned by Sir Richard Branson’s Virgin Group and aabar Investments PJS, is on track to be the world’s first commercial spaceline. To date, the company has accepted nearly $80 million in deposits from approximately 640 individuals, approximately 10% more than the total number of people who have ever gone to space. The new spaceship (SpaceShipTwo, VSS Enterprise) and carrier craft (WhiteKnightTwo, VMS Eve) have both been developed for Virgin Galactic’s vehicle fleet by Mojave-based Scaled Composites. Founded by Burt Rutan, Scaled developed SpaceShipOne, which in 2004 claimed the $10 million Ansari X Prize as the world’s first privately developed manned spacecraft. Virgin Galactic’s new vehicles, which will be manufactured by The Spaceship Company in Mojave, CA, share much of the same basic design, but are being built to carry six customers, or the equivalent scientific research payload, on suborbital space flights. The vehicles will allow an out-of-the-seat, zero-gravity experience with astounding views of the planet from the black sky of space for tourist astronauts and a unique microgravity platform for researchers. The VSS Enterprise and VMS Eve test flight program is well under way, leading to Virgin Galactic commercial operations, which will be based at Spaceport America in New Mexico.