Gizmodo reporter Ryan Mandelbaum writes that by studying ancient quasars, MIT scientists have uncovered evidence supporting quantum entanglement, the concept that two particles can become linked despite their distance in space and time. “We’ve outsourced randomness to the furthest quarters of the universe, tens of billions of light years away,” says Prof. David Kaiser.
Popular Mechanics reporter Avery Thompson describes a new method developed by MIT researchers to send signals between the water and the air by using sound waves to create detectable vibrations at the water’s surface. Thompson explains that the new technology could eventually make “exploring and living under the waves much easier.”
Engadget reporter Jon Fingas writes that MIT researchers have developed a new wireless device that allows data to be transmitted from an underwater source to the air. Fingas explains that the system could allow submarines to “send their findings directly to aircraft (including drones) circling above while remaining safely underwater, and without using boats as intermediaries.”
Space.com reporter Chelsea Gohd writes that MIT researchers have used the light emitted by two ancient quasars to provide evidence of quantum entanglement, the theory that two particles can become linked across space and time. The researchers used ancient quasars to see if, “the correlation between particles can be explained by classical mechanics stemming from earlier than 600 years ago.”
Writing for Motherboard, Daniel Oberhaus highlights how MIT researchers have used light emitted by quasars billions of years ago to confirm the existence of quantum entanglement. Oberhaus explains that the findings suggest entanglement occurs “because if it didn’t exist the universe would somehow have to have ‘known’ 7.8 billion years ago that these MIT scientists would perform these experiments in 2018.”
Gizmodo reporter Ryan Mandelbaum highlights how MIT researchers used data from the CLAS particle accelerator and detector to determine that neutron stars are heavily influenced by protons. Prof. Or Hen explains that the findings show that, “protons are much more important in determining the properties of neutron stars than we thought.”
In an article for Popular Mechanics, Tiana Cline spotlights SoFi, an autonomous, soft, robotic fish that can swim alongside real fish. “SoFi has the potential to be a new type of tool for ocean exploration and to open up new avenues for uncovering the mysteries of marine life,” Cline notes.
MIT researchers have developed a sensor that can determine if cancer cells are responding to a certain chemotherapy drug. “Another potential use is to screen patients before they receive such drugs, to see if the drugs will be successful against each patient's tumor,” writes Li Xia for Xinhua.
NBC Mach reporter Tom Metcalfe writes that MIT researchers have developed a technique to 3-D print soft objects that change shape in response to magnetic fields. “You can imagine this technology being used in minimally invasive surgeries,” explains Prof. Xuanhe Zhao. “A self-steering catheter inside a blood vessel, for example — now you can use external magnetic fields to accurately steer the catheter.”
A new study by MIT researchers uncovers evidence that more than a quadrillion tons of diamonds are located in the Earth’s upper mantle, reports Katie Camero for The Boston Globe. Camero explains that, “researchers came to this conclusion after they found in global records over the past few decades a ‘glitch’ in seismic wave activity.”
Using data on subatomic particles called neutrinos from Antarctica’s IceCube Neutrino Observatory, a team including MIT researchers has determined that Einstein’s theory of special relativity is correct. “Neutrinos had not yet been discovered when Einstein died, but his theory still predicts their behavior,” explains Kimberly Hickok for LiveScience.
A team including MIT research scientist Ulrich Faul has discovered that the Earth’s interior contains 1,000 times more diamonds than was previously thought, writes Sarah Emerson for Motherboard. The researchers believe that one to two percent of “craton roots,” which are the deepest sections of the “rock layers extending upwards of 200 miles through the Earth’s crust and mantle,” may contain diamonds.
MIT researchers have discovered a cache of diamonds below the surface of the Earth, deeper than any drilling expedition has ventured, reports the Agence France-Presse wire. This discovery was made after “scientists were puzzled by observations that sound waves would speed up significantly when passing through the roots of ancient cratons.”
Using “recorded sound waves from seismic activity like earthquakes and tsunamis,” MIT researchers have found that there may be a quadrillion tons of diamonds under the Earth’s surface, reports Sarah Gray for Fortune. The seismic data provided this information, “because the speed of sound waves changes depending on the temperature, density and composition of the earth they travel through,” explains Gray.
MIT research scientist Ulrich Faul used seismic data to determine that there may be diamonds underneath the Earth’s surface. “Located over 100 miles below Earth's tectonic plates are ancient, hard rocks called ‘cratonic roots’ that potentially consist of one to two percent diamond — totaling a quadrillion tons,” writes Lilly Price for USA Today.