MIT physicists have cooled molecules to just above absolute zero, reports Macrina Cooper-White for The Huffington Post. “The team hopes to cool molecules to an even lower temperature, study the interactions between them, and learn more about the limits on their lifetime,” Cooper-White explains.
Jesse Emspak of Live Science writes that MIT researchers have successfully cooled molecules to just above absolute zero. The researchers found that when the molecules were cooled to 500 nanokelvins they “were quite stable, and tended not to react with other molecules around them.”
BetaBoston reporter Dan Adams speaks with Yoel Fink, director of RLE, about the Translational Fellows Program, an initiative that provides postdocs an opportunity to commercialize technologies they developed at MIT. Fink explains that the goal of the program is to empower postdocs, “not just to find a job in an industry, but to create an industry.”
In a Scientific American podcast, Cynthia Graber examines MIT research showing typing speed can indicate if a person is fatigued and can help diagnose certain diseases. Typing speed could be used as a “safety feature on software programs for night shifts” or could diagnose Parkinson’s “by tracking changes in someone’s ability to manipulate the common keyboard.”
Researchers at MIT have developed software that tracks typing speed in order to help diagnose Parkinson’s disease, writes Alexandra Ossola for Popular Science. Ossola explains that the researchers "hope that this type test could eventually lead to earlier diagnoses of Parkinson’s.”
Mo Costandi reports for The Guardian on how Prof. Polina Anikeeva has developed a new technique to activate brain cells using nanoparticles. Costandi explains that, “research like this may eventually allow for wireless and minimally invasive deep brain stimulation of the human brain.”
Sarah Kaplan of The Washington Post highlights Prof. Sangbae Kim’s work developing a robot modeled after the cheetah. Kim explains that he took inspiration from the cheetah’s movements to design a robot that could run. “We can steal a lot of ideas from nature that we can apply . . . to speed up our engineering evolution,” he explains.
The result of five years of testing, a robotic cheetah developed by MIT researchers can run at speeds of 10 miles per hour and jump 16 inches high, reports the Associated Press. "In the next 10 years, our goal is we are trying to make this robot to save a life," explains Professor Sangbae Kim.
Brendan Borrell writes for Scientific American about how MIT researchers have engineered the DNA of E.coli to detect and record environmental information. “Building gene circuits requires not only computation and logic, but a way to store that information,” says Prof. Timothy Lu. “DNA provides a very stable form of memory and will allow us to do more complex computing tasks.”
MIT engineers have altered the DNA of E.coli so that it can store memories, reports Colin Barras for New Scientist. The research could “pave the way for cellular biographers that can be inserted into our bodies for the inside scoop on our health,” Barras explains.
The Huffington Post reports on how MIT researchers have developed a robotic cheetah that can run and jump, untethered.
Francie Diep writes for Popular Science about a new waterproof adhesive developed by Professor Timothy Lu’s team. “The glue, which works underwater, incorporates proteins that mussels normally use to adhere to rocks, jetties, and larger sea critters,” writes Diep.
USA Today’s Kristin Musulin reports on a new algorithm developed by MIT researchers that allows their cheetah robot to operate untethered. “This is the first time we show that an electrically powered robot can run and jump over one-foot height obstacles,” says Professor Sangbae Kim.
“Researchers at MIT have built a four-legged robot that runs like the super-fast spotted feline and can even run on its own power,” writes Amina Khan for The Los Angeles Times about MIT’s robotic cheetah. “[T]he researchers think that it could eventually reach speeds of 30 miles per hour.”
Dominique Mosbergen reports for The Huffington Post on MIT’s robotic cheetah: “[T]he researchers behind its development have devised an algorithm that allows their creation not just to run at speeds of up to 10 mph but also to jump over obstacles—all without being tethered to anything.”