Anhui research facility expected to provide plasma physics insights crucial to setting up industrial-size reactors to generate clean energy.
The launch tower is getting bigger.
SpaceX CEO Elon Musk has shared a video of the Starship’s impressive launch tower, ahead of a planned orbital flight.
Alquist, a house printing company, recently partnered with Habitat for Humanity to create a 3D-printed home in Williamsburg, Virginia.
I am happy to say that my recently published computational COVID-19 research has been featured in a major news article by HPCwire! I led this research as CTO of Conduit. My team utilized one of the world’s top supercomputers (Frontera) to study the mechanisms by which the coronavirus’s M proteins and E proteins facilitate budding, an understudied part of the SARS-CoV-2 life cycle. Our results may provide the foundation for new ways of designing antiviral treatments which interfere with budding. Thank you to Ryan Robinson (Conduit’s CEO) and my computational team: Ankush Singhal, Shafat M., David Hill, Jr., Tamer Elkholy, Kayode Ezike, and Ricky Williams.
Conduit, created by MIT graduate (and current CEO) Ryan Robinson, was founded in 2017. But it might not have been until a few years later, when the pandemic started, that Conduit may have found its true calling. While Conduit s commercial division is busy developing a Covid-19 test called nanoSPLASH, its nonprofit arm was granted access to one of the most powerful supercomputers in the world Frontera, at the Texas Advanced Computing Center (TACC) to model the budding process of SARS-CoV-2.
Budding, the researchers explained, is how the virus genetic material is encapsulated in a spherical envelope and the process is key to the virus ability to infect. Despite that, they say, it has hitherto been poorly understood:
The Conduit team comprised of Logan Thrasher Collins (CTO of Conduit), Tamer Elkholy, Shafat Mubin, David Hill, Ricky Williams, Kayode Ezike and Ankush Singhal sought to change that, applying for an allocation from the White House-led Covid-19 High-Performance Computing Consortium to model the budding process on a supercomputer.
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It depends.
Warp drive. Site-to-site transporter technology. A vast network of interstellar wormholes that take us to bountiful alien worlds. Beyond a hefty holiday wish-list, the ideas presented to us in sci-fi franchises like Gene Roddenberry’s “Star Trek” have inspired countless millions to dream of a time when humans have used technology to rise above the everyday limits of nature, and explore the universe.
But to guarantee the shortest path to turning at least some of these ideas into genuine scientific breakthroughs, we need to push ideas like general relativity to the breaking point. Tractor beams, one of the most exotic ideas proposed by the genre that involves manipulating space-time to pull or push objects at a distance, take us beyond the everyday paradigm of science, to the very edge of theoretical physics. And, a team of scientists examined how they might work in a recent study shared on a preprint server.
“In researching sci-fi ideas like tractor beams, the goal is to push and try to find a demarcation point where something more is needed, like quantum gravity,” said Sebastian Schuster, a scientist with a doctorate in mathematical physics from the Charles University of Prague, in an interview with IE. And, in finding out if tractor beams can work, we might also uncover even more exotic forces, like quantum gravity. So strap in.
The researchers used extrusion printing to manufacture the electrodes, interconnects, encapsulation, and insulation. Active layers were then spray painted on at room temperature. All in all, six layers were 3D printed to build a flexible and fully functioning display.
“OLED displays are usually produced in big, expensive, ultra-clean fabrication facilities,” said Michael McAlpine, senior author of the team’s new study. “We wanted to see if we could basically condense all of that down and print an OLED display on our table-top 3D printer, which was custom built and costs about the same as a Tesla Model S.”
Adding to its space program’s growing list of achievements.
China’s space program (CNSA) is the first to detect water signals directly from the Moon’s surface thanks to its Chang’e-5 lunar probe, a report from CGTN reveals.
The new breakthrough provides yet another important milestone for the CNSA, which is ambitiously closing the gap between itself and the world’s two historic space superpowers, the U.S. and Russia.
The first in-situ lunar water detection For years, thanks to a number of orbital observations and sample measurements, it has been known that water exists on the Moon. In fact, last year a California-based startup called Masten Space Systems announced it is developing a robotic rover that can mine ice on the Moon to provide future lunar habitats with water and oxygen.
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