Research

Reporting from MIT, GBH’s Kirk Carapezza highlights how MIT is launching a “major effort to advance quantum computing, with a state investment of $25 million to help build a new research facility in Cambridge.” Said President Sally Kornbluth: “Everything you can think of that uses classical computing now, think about quantum speeding it up, making it more efficient. We think about the AI revolution and the expenses of AI and data centers. This is going to be impacted by a whole new different way of computing.”

President Sally Kornbluth and Governor Maura Healey announced the establishment of a new quantum hub at MIT, called the Quantum Systems Laboratory, which is aimed at enabling scientists to undertake impactful work applying quantum research across practical domains, including life sciences and national defense, reports Aaron Pressman for The Boston Globe. “Greater Boston has the greatest concentration of quantum talent anywhere in the world,” said Kornbluth. “It has been clear to us for some time that if we could magnify all of that talent with the right facilities and shared quantum toolbox, we could establish Massachusetts as a national hub for quantum innovation.”

To help establish Massachusetts and the nation as a quantum leader, President Sally Kornbluth and Governor Maura Healey announced plans for a new share-used quantum research facility at MIT, writes Axios reporter Steph Solis. The Quantum Systems Laboratory would “host teams focused on using quantum mechanics for life sciences and defense research, but what would set the MIT project apart from existing labs is its ability to power direct communication among multiple quantum computers,” Solis explains. 

Thanks in part to a $25 investment from the Commonwealth of Massachusetts, MIT plans to open the Quantum Systems Laboratory, which will “provide quantum experts from across Massachusetts access to quantum hardware and specialized equipment,” reports Lucia Maffei for the Boston Business Journal. "This is good news for MIT, good news for Massachusetts and, frankly, good news for the world," said Governor Maura Healey. "This is really setting the stage to have cutting-edge quantum computers be able to operate in that building," said President Sally Kornbluth. "There will be many people throughout Massachusetts who come to use this facility. It's really a hub to make Massachusetts a quantum center.” 

State House News Service reporter Katie Castellani writes that President Sally Kornbluth and Governor Maura Healey announced a new shared-use quantum facility at MIT, the Quantum Systems Laboratory (QSL), aimed at providing scientists the opportunity to apply quantum research across various sectors, including defense and the life sciences. The QSL will “bring quantum computers together with quantum sensors and peripherals through physical channels that transfer information,” Castellani explains. 

MIT engineers have developed a new low-temperature process for extracting battery-grade lithium from hard rock, while reducing waste, reports Gayoung Lee for Gizmodo. “Mining is essential to technology and therefore to society, yet it is perceived negatively by much of the public as a destructive, polluting industry, in some cases with good reason,” Chiang concluded. “We hope to help change that perception by showing that there are cleaner, more sustainable ways to do it.”

Writing for The Boston Globe, President Sally Kornbluth emphasizes the importance of investment in discovery science, what she calls “curiosity on a mission." Kornbluth notes: “When someone we love needs therapies that could have emerged but didn’t or when other countries now investing in science can launch new science-based industries or run their societies on vast resources of fusion energy or reap the benefits of quantum computing power or advanced medical breakthroughs, America will wish it sustained its leadership in scientific research here and now.”

Researchers at MIT have developed a new online tool called the “AI Labor Exposure Map,” which breaks down different job tasks by those that can be performed by AI, and those that cannot. The team found that, “[i]n many cases, the human-centric parts of a job are still essential,” reports Hiawatha Bray for The Boston Globe. “Instead of laying off workers, an employer could use the research to identify tasks that could be automated, so that the workers can be reassigned to handle only the uniquely human tasks.” 

7 News reporter Polikseni Manxhari spotlights Erin Dawicki Sloan Fellow MBA ’24 and her work developing LymeAlert, an at-home kit that can test ticks for Lyme disease. “We really see this as a community-based healthcare initiative where we can all contribute significant information and hopefully figure out how to stop these little buggers in their tracks,” says Dawicki. 

During a live interview in the GBH studios with Curiosity Desk host Edgar B. Herwick III, Research Scientist AJ Perez shares his work developing a new method to reuse recycled plastic to 3D print construction-grade materials for home building, which could help reduce home construction costs. “This all started with the idea of trying to build the roughly one billion homes the world needs,” says Perez. 

A new at-home test developed by Erin Dawicki Sloan Fellow MBA ’24 can identify Lyme disease in a tick in just 15 minutes, Juli McDonald for CBS Boston. "Our goal is to get this into everybody's medical kits. Not everyone finds the tick, but when you do, if you can test it immediately at home and know you've been exposed," Dawicki explains.

Washington Post reporter Kevin Schaul examines the impact of AI on a number of fields, highlighting a recent study co-authored by graduate student Anand Shah that found that over the past few years there appears to have been an increase in self-represented and AI-generated legal filings. “Every system that has decreased cost to entry from AI should expect increased demand,” says Shah. 

In an effort to defend medical devices against quantum attacks, MIT researchers have engineered an ultra-efficient microchip that can protect wireless biomedical devices, such as insulin pumps and pacemakers, reports Katie Hunt for CNN. The microchip, which is around the size of an extremely fine needle tip, “includes built-in protection needed for post-quantum cybersecurity. The device achieved between 20 and 60 times higher energy efficiency than other post-quantum security techniques.”

Writing for Bloomberg, Prof. Paul Osterman examines the rising use of contractors, freelancers and gig-workers by employers around the country. “While not all workers need to be forced into standard employment, they deserve some minimum level of protection and benefits—that includes gig workers and freelancers, who often don’t have any,” Osterman notes. “Workers need not pay a high price so employers can secure the flexibility they need.”

Prof. Taha Choukhmane co-authored a new study examining how Americans are using AI in their financial planning and found that “AI consistently gave better advice to people who asked better questions,” reports Daniel de Visé for USA Today. “It might be that AI is going to be a little more useful for people who already know a little bit about finance and financial literacy,” Choukhmane explains.