Samsung's newest SSD - the Samsung 990 Evo Plus PCIe 4.0 M.2 NVMe solid state drive - is on sale today. Pick up the 2TB model for $129.99 or, if you can swing it, the 4TB model is also discounted to $255. It's currently $40-$70 cheaper than the Samsung 990 Pro and most (if not all) gamers won't notice the difference in performance.Samsung 990 Evo Plus 2TB PS5 SSD for $129.994TB for $259.99Samsung 990 Evo Plus 2TB PCIe Gen 4x4 M.2 SSDSamsung 990 Evo Plus 4TB PCIe Gen 4x4 M.2 SSDThe Samsung 990 Evo Plus is an excellent drive for both your gaming PC and your PlayStation 5 console. It exceeds Sony's minimim speed recommendation for the PS5, boasting sequential speeds of up to 7,250 read and 6,300MB/s write. This is a much faster drive than the 990 Evo non-Pro but not quite as fast as the 990 Pro. The main difference between this drive and the more expensive 990 Pro is that this is a DRAM-less drive. For PS5 performance, it makes no difference. For gaming PCs, the 990 Evo Plus supports HMB (host memory buffer), which makes up for the lack of DRAM by using an inconsequential amount of RAM from your system memory. Gamers will not notice any difference between the two.The Samsung 990 Evo Plus does not have a preinstalled heatsink. However, the 990 Evo Plus SSD is a newer single-sided SSD design that is power efficient and doesn't generate as much heat as SSDs from before. That means you probably don't need to use a heatsink and it should still work perfectly fine in a PS5 console without any thermal throttling. That said, you certainly could for peace of mind and I wouldn't see any disadvantage to that aside from spending an extra $7.More SSDs for PS5Looking for more options? Check out our favorite PS5 SSDs for the PS5 console.Corsair MP600 PRO LPXSee it at AmazonCrucial T500 See it at AmazonWD_Black P40See it at AmazonLexar NM790See it at AmazonWhy Should You Trust IGN's Deals Team?IGN's deals team has a combined 30+ years of experience finding the best discounts in gaming, tech, and just about every other category. We don't try to trick our readers into buying things they don't need at prices that aren't worth buying something at. Our ultimate goal is to surface the best possible deals from brands we trust and our editorial team has personal experience with. You can check out our deals standards here for more information on our process, or keep up with the latest deals we find on IGN's Deals account on Twitter.Eric Song is the IGN commerce manager in charge of finding the best gaming and tech deals every day. When Eric isn't hunting for deals for other people at work, he's hunting for deals for himself during his free time.

Apple has new public beta software available for testing now. Public beta 2 just debuted for macOS Sequoia 15.5, iPadOS 18.5, tvOS 18.5, and more. Public beta 2 for macOS 15.5 and more now available Last week, Apple’s first public betas for the next wave of software releases arrived. macOS 15.5, iPadOS 18.5, and more launched in public beta after the updates had already been available for developers for a couple of weeks. Those initial developer betas were fairly buggy in my experience, so it’s unsurprising Apple didn’t ship them to the public. Now, however, public beta 2 for Apple’s various platforms is here—just one day after new developer builds. Unfortunately, in our testing so far, no new features or noteworthy changes have been discovered. The two updates to Apple’s Mail app present in last week’s betas remain the only real feature updates of this current software wave. Bug fixes and under-the-hood tweaks seem to be the focus. Apple could always have surprises in store for closer to the public launch. That happens occasionally with new software versions that otherwise seem devoid of changes in the beta. Since so little seems to be changing in macOS 15.5, iPadOS 18.5, and the other updates, it’s very possible we’ll see a shorter than usual testing cycle. In that case, public launches could arrive in early to mid-May. If you want to install the new versions sooner, you can join Apple’s beta software program via its website. Have you discovered any changes in iPadOS 18.5, macOS 15.5, or other public beta 2 updates? Let us know in the comments. Best Mac and iPad accessories Add 9to5Mac to your Google News feed.  FTC: We use income earning auto affiliate links. More.You’re reading 9to5Mac — experts who break news about Apple and its surrounding ecosystem, day after day. Be sure to check out our homepage for all the latest news, and follow 9to5Mac on Twitter, Facebook, and LinkedIn to stay in the loop. Don’t know where to start? Check out our exclusive stories, reviews, how-tos, and subscribe to our YouTube channel

Project Fi was announced 10 years ago, and Google is celebrating the MVNO’s birthday with a handful of updates for iPhone and iPad owners. The Google Fi Wireless set-up process on iPhone is getting simpler. You no longer have to manually enter carrier information to get service up and running. The actual activation period is also getting faster. On the calling front, voicemail will soon be integrated into the Phone app. At the moment, you have to check the Google Fi app, with visual voicemail rolling out in the coming weeks. When traveling, iPhone owners on the Unlimited Premium (renamed) and Flexible plans can now access international 5G service in 92 countries. Google Fi previously only offered this capability on Android devices.  Meanwhile, Google is adding support for data-only eSIMs. This is catered towards tablets, with recent iPads dropping the physical SIM card slot. However, you’ll be able to download a data-only eSIM to phones that you don’t want to issue a number for. This set-up process just involves scanning a QR code. Last month, Apple enabled RCS on Google Fi and other T-Mobile MVNOs. This addressed a big Fi limitation, with iOS subscribers next turning their attention to Apple Watch. The Fi team tells us that it wants to support the Apple Watch, but the activation process is proprietary and something it cannot do alone. In the case of RCS, Google Fi had to wait on Apple. This is unfortunate as Android users can add supported Wear OS smartwatches to their plan without paying a separate fee.  Google Fi today also announced a new entry-level $35 and increased data limits on all other plans. You can read more about that here. Add 9to5Google to your Google News feed.  FTC: We use income earning auto affiliate links. More.You’re reading 9to5Google — experts who break news about Google and its surrounding ecosystem, day after day. Be sure to check out our homepage for all the latest news, and follow 9to5Google on Twitter, Facebook, and LinkedIn to stay in the loop. Don’t know where to start? Check out our exclusive stories, reviews, how-tos, and subscribe to our YouTube channel

Self-driving cars have been given the green light in over 50 countries and 41 US states — but in reality, that doesn't mean they're ready to hit the pavement.Take that from Becky Navarro of Austin, Texas, who says she found herself stuck in the middle of an express loop when her self-driving Waymo taxi decided it needed a break. After stopping, the vehicle seemed to offer no way for Navarro and her passengers to leave, effectively trapping the group on an active highway as cars whipped past.Navarro, who detailed her wild ride on TikTok, said the incident started when the Waymo went haywire, whisking the group off in the opposite direction they needed to go.Luckily, Waymo riders can contact live customer support for incidents that happen during their ride. Unfortunately, the remote agent didn't do much — and by the sound of it, couldn't have even if he wanted to.Once customer service was called, Navarro says the car stopped in the middle of a lane under MoPac — an infamous toll-loop running along the west side of Austin. MoPac is frequently listed among the most dangerous highways in the city, and is so notorious it spawned its own viral parody account on X-formerly-Twitter, Evil Mopac."So then we're talking to customer support," Navarro explains, "we kept saying, 'hey we're on the highway, please, like move the car.' Cars kept honking at us and it would not move, would not let us out."Video from within the Waymo shows the group arguing with a live support agent as a screen prompts riders to "please exit now," all while an autonomous voice continuously chimes "vehicle approaching" at each passing car. "I understand, but we don't have a way to just physically move the cars," the agent stammers as the women ask to leave.Though Waymo's user guide has no advice on how to exit its vehicles in an emergency, some social media users suggest that pulling the door handle twice is the key to exiting in situations like these. Whether Navarro and her friends were truly locked in or just unaware of the exit mechanism is unknown.To the agent's credit, exiting onto a high-speed MoPac ramp isn't exactly the safest option, though it does pose the question of why the Waymo parked itself there in the first place. And from a practical standpoint, why is trapping riders inside the only option when Waymo's self-driving cars go haywire?Earlier this year, a man experienced a similar incident when a Waymo car began driving in endless circles around a parking lot in Phoenix, Arizona."I've got my seatbelt on, I can't get out of the car," the driver said from the backseat of the Waymo. "Has this been hacked?"Given the glitchy state of self-driving tech — and the life or death stakes involved — you wouldn't be nuts for wondering why these things are allowed on roads at all.As far back as 2011, state governments have been slashing red tape to allow companies to "live test" self-driving cars on public roads, a move often used to court high-value tech companies to open operations in states like Nevada and Arizona.Under the Trump administration, the already fractured regulatory landscape is poised to relax even further, meaning profit-seeking companies like Waymo, Uber, and Tesla will be given even more power to fill our streets with error-prone cars like the ones Navarro experienced in Austin.That regulatory handover has consequences. Autonomous vehicles have already clocked 617 crashes in the US, 21 percent of which occurred with something other than a car — meaning cyclists, pedestrians, and objects on the side of the road. Between May and September of 2022 alone, self-driving cars racked up a whopping 11 fatalities.Contrast this to a country with strong automotive regulation like China, which imposed strict controls over self-driving advertising and software after an autonomous vehicle accident killed three college students in 2024.Given the current state of things, it's clearly time to pump the brakes on self-driving cars, even if that means further delaying shareholder profit. After all, you can't put a price on human lives.More on self-driving cars: An Internal Tesla Analysis Found the Robotaxi Would Lose Money, and You'll Never Guess What Elon Musk Did in ResponseShare This Article

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When the prison doors first closed behind him more than 50 years ago, Lee Perlman, PhD ’89, felt decidedly unsettled.   In his first job out of college, as a researcher for a consulting company working on a project for the US Federal Bureau of Prisons, he had been tasked with interviewing incarcerated participants in a drug rehab program. Once locked inside, he found himself alone in a room with a convicted criminal. “I didn’t know whether I should be scared,” he recalls.  Since then, he has spent countless hours in such environments in his role as a teacher of philosophy. He’s had “very, very few experiences” where he felt unsafe in prisons over the years, he says. “But that first time you go in, you do feel unsafe. I think that’s what you should feel. That teaches you something about what it feels like for anybody going into prison.” As a lecturer in MIT’s Experimental Study Group (ESG) for more than 40 years, Perlman has guided numerous MIT students through their own versions of that passage through prison doors. He first began teaching in prisons in the 1980s, when he got the idea of bringing his ESG students studying nonviolence into the Massachusetts Correctional Institution at Norfolk to talk with men serving life sentences. The experience was so compelling that Perlman kept going back, and since the early 2000s he has been offering full courses behind bars.  In 2018, Perlman formalized these efforts by cofounding the Educational Justice Institute (TEJI) at MIT with Carole Cafferty, a former corrections professional. Conceived both to provide college-level education with technology access to incarcerated individuals and to foster empathy and offer a window into the criminal justice system for MIT students, TEJI creates opportunities for the two groups to learn side by side.  “There’s hard data that there’s nothing that works like education to cut recidivism, to change the atmosphere within a prison so prisons become less violent places.” Lee Perlman, PhD ’89 “We believe that there are three fundamental components of education that everybody should have, regardless of their incarceration status: emotional literacy, digital literacy, and financial literacy,” says Cafferty. TEJI offers incarcerated students classes in the humanities, computer science, and business, the credits from which can be applied toward degrees from private universities and community colleges. The emotional literacy component, featuring Perlman’s philosophy courses, is taught in an “inside-out” format, with a mixed group of incarcerated “inside” students and “outside” classmates (from MIT and other universities where TEJI courses are sometimes cross-listed).  “I’ve been really torn throughout my life,” Perlman says, “between this part of me that would like to be a monk and sit in a cave and read books all day long and come out and discuss them with other monks, and this other half of me that wants to do some good in the world, really wants to make a difference.” Behind prison walls, the concepts he relishes discussing—love, authenticity, compassion—have become his tools for doing that good. TEJI also serves as a convener of people from academia and the criminal justice system. Within MIT, it works with the Sloan School of Management, the Music and Theater Arts Section, the Priscilla King Gray Public Service Center, and others on courses and special prison-related projects. And by spearheading broader initiatives like the Massachusetts Prison Education Consortium and the New England Commission on the Future of Higher Education in Prison, TEJI has helped lay the groundwork for significant shifts in how incarcerated people across the region and beyond prepare to rejoin society. “Lee and I both share the belief that education can and should be a transformative force in the lives of incarcerated people,” Cafferty says. “But we also recognize that the current system doesn’t offer a lot of opportunities for that.” Through TEJI, they’re working to create more. Perlman didn’t set out to reform prison education. “There’s never been any plan,” he says. “Before I was an academic I was a political organizer, so I have that political organizer brain. I just look for … where’s the opening you can run through?” Before earning his PhD in political philosophy, Perlman spent eight years making his mark on Maryland’s political scene. At age 28, he came up short by a few hundred votes in a primary for the state senate. In the late 1970s, Perlman says, he was named one of 10 rising stars in Maryland politics by the Baltimore Sun and one of the state’s most feared lobbyists by Baltimore Magazine because he got lawmakers to “do things they’d be perfectly willing to leave alone,” as he puts it, like pass election reform bills. The legislators gave him the nickname Wolfman, “probably just because I had a beard,” he says, “but it kind of grew to mean other things.” Perlman still has the beard. Working in tandem with Cafferty and others, he’s also retained his knack for nudging change forward. Lee Perlman, PhD ’89, and Philip Hutchful, an incarcerated student, take part in the semester’s final meeting of Perlman’s “inside-out” class Nonviolence as a Way of Life at the Boston Pre-Release Center.JAY DIAS/MASSACHUSETTS DEPARTMENT OF CORRECTION Cafferty understands, better than most, how difficult that can be in the prison system. She held numerous roles in her 25-year corrections career, ultimately serving as superintendent of the Middlesex Jail and House of Correction, where she oversaw the introduction of the first tablet-based prison literacy program in New England.  “I used to say someday when I write a book, it’s going to be called Swimming Against the Tide,” she says. In a correctional environment, “safety and security come first, always,” she explains. “Programming and education are much further down the list of priorities.” TEJI’s work pushes against a current in public opinion that takes a punitive rather than rehabilitative view of incarceration. Some skeptics see educating people in prison as rewarding bad deeds. “Out in the world I’ve had people say to me, ‘Maybe I should commit a crime so I can get a free college education,’” says Perlman. “My general response is, well, you really have one choice here: Do you want more crime or less crime? There’s hard data that there’s nothing that works like education to cut recidivism, to change the atmosphere within a prison so prisons become less violent places. Also, do you want to spend more or do you want to spend less money on this problem? For every dollar we spend on prison education and similar programs, we save five dollars.” The research to which Perlman refers includes a 2018 RAND study, which found that participants in correctional education programs in the US were 28% less likely to reoffend than their counterparts who did not participate. It’s a powerful number, considering that roughly 500,000 people are released from custody each year. Perlman has such statistics at the ready, as he must. But talk to him for any amount of time and the humanity behind the numbers is what stands out.  “There is a sizable group of people in prison who, if society was doing a better job, would have different lives,” he says, noting that “they’re smart enough and they have character enough” to pull it off: “We can make things happen in prison that will put them on a different path.”  “Most of the people I teach behind bars are people that have had terrible experiences with education and don’t feel themselves to be very capable at all,” he says. So he sometimes opens his class by saying: “Something you probably wouldn’t guess about me is that I failed the 11th grade twice and dropped out of high school. And now I have a PhD from MIT and I’ve been teaching at MIT for 40 years. So you never know where life’s gonna lead you.”  Though Perlman struggled to find his motivation in high school, he “buckled down and learned how much I loved learning,” as he puts it, when his parents sent him to boarding school to finish his diploma. He went on to graduate from St. John’s College in Annapolis, Maryland. Growing up in Michigan in the 1960s, he’d learned about fair housing issues because his mother was involved with the civil rights movement, and he lived for a time with a Black family that ran a halfway house for teenage girls. By the time he took that first job interviewing incarcerated former drug addicts, he was primed to understand their stories within the context of poverty, discrimination, and other systemic factors. He began volunteering for a group helping people reenter society after incarceration, and as part of his training, he spent a night booked into jail.  “I didn’t experience any ill treatment,” he says, “but I did experience the complete powerlessness you have when you’re a prisoner.” Jocelyn Zhu ’25 took a class with Perlman in the fall of 2023 at the Suffolk County House of Correction, and entering the facility gave her a similar sense of powerlessness.  “We had to put our phones away, and whatever we were told to do we would have to do, and that’s not really an experience that you’re in very often as a student at MIT,” says Zhu. “There was definitely that element of surrender: ‘I’m not in charge of my environment.’” On the flip side, she says, “because you’re in that environment, the only thing you’re doing while you’re there is learning—and really focusing in on the discussion you’re having with other students.” “I call them the ‘philosophical life skills’ classes,” says Perlman, “because there are things in our lives that everybody should sit down and think through as well as they can at some point.” He says that while those classes work fine with just MIT students, being able to go into a prison and talk through the same issues with people who have had very different life experiences adds a richness to the discussion that would be hard to replicate in a typical classroom.  He recalls the first time he broached the topic of forgiveness in a prison setting. Someone serving a life sentence for murder put things in a way Perlman had never considered. He remembers the man saying: “What I did was unforgivable. If somebody said ‘I forgive you for taking my child’s life,’ I wouldn’t even understand what that meant. For me, forgiveness means trying, at least … to regard me as somebody who’s capable of change … giving me the space to show you that I’m not the person who did that anymore.’”  Perlman went home and revised his lecture notes. “I completely reformulated my conception of forgiveness based on that,” he says. “And I tell that story every time I teach the class.” The meeting room at the minimum-­security Boston Pre-Release Center is simply furnished: clusters of wooden tables and chairs, a whiteboard, some vending machines. December’s bare branches are visible through a row of windows that remain closed even on the warmest of days (“Out of Bounds,” warns a sign taped beside them). This afternoon, the room is hosting one of Perlman’s signature classes, Nonviolence as a Way of Life. To close the fall 2024 semester, he has asked his students to creatively recap four months of Thursdays together.  Before long, the students are enmeshed in a good-natured showdown, calling out letters to fill in the blanks in a mystery phrase unfolding on the whiteboard. Someone solves it (“An eye for an eye makes the world go blind”) and scores bonus points for identifying its corresponding unit on the syllabus (Restorative Justice).  “It’s still anybody’s game!” announces the presenting student, Jay Ferran, earning guffaws with his spot-on TV host impression. Ferran and the other men in the room wearing jeans are residents of the Pre-Release Center. They have shared this class all semester with undergrad and grad students from MIT and Harvard (who are prohibited from wearing jeans by the visitor dress code). Before they all part ways, they circle up their chairs one last time. “Humor can be a defense mechanism, but it never felt that way in here,” says Isabel Burney, a student at the Harvard Graduate School of Education. “I really had a good time laughing with you guys.” “I appreciate everyone’s vulnerability,” says Jack Horgen ’26. “I think that takes a lot of grace, strength, and honesty.” “I’d like to thank the outside students for coming in and sharing as well,” says Ferran. “It gives a bit of freedom to interact with students who come from the outside. We want to get on the same level. You give us hope.” After the room has emptied out, Ferran reflects further on finding himself a college student at this stage in his life. Now in his late 40s, he dropped out of high school when he became a father. “I always knew I was smart and had the potential, but I was a follower,” he says.  As Ferran approaches the end of his sentence, he’s hoping to leverage the college credits he’s earned so far into an occupation in counseling and social work. His classmate Philip Hutchful, 35, is aiming for a career in construction management.  Access to education in prison “gives people a second chance at life,” Hutchful says. “It keeps your mind busy, rewires your brain.” JAY DIAS/MASSACHUSETTS DEPARTMENT OF CORRECTION JAY DIAS/MASSACHUSETTS DEPARTMENT OF CORRECTION JAY DIAS/MASSACHUSETTS DEPARTMENT OF CORRECTION MIT undergrads Denisse Romero Cruz ’25, Jack Horgen ’26, and Alor Sahoo ’26 at the final session of Perlman’s Nonviolence as a Way of Life class at the Boston Pre-Release Center. Along with about 45% of the Boston Pre-Release Center’s residents, Ferran and Hutchful are enrolled in the facility’s School of Reentry, which partners with MIT and other local colleges and universities to provide educational opportunities during the final 12 to 18 months of a sentence.  “We have seen a number of culture shifts for our students and their families, such as accountability, flexible thinking, and curiosity,” says the program’s executive director, Lisa Millwood. There are “students who worked hard just so they can proudly be there to support their grandchildren, or students who have made pacts with their teenage children who are struggling in school to stick with it together.” Ferran and Hutchful had previously taken college-level classes through the School of Reentry, but the prospect of studying alongside MIT and Harvard students raised new qualms.  “These kids are super smart—how can I compete with them? I’m going to feel so stupid,” Ferran remembers thinking. “In fact, it wasn’t like that at all.” “We all had our own different types of knowledge,” says Hutchful. Both Ferran and Hutchful say they’ve learned skills that they’ll put to use in their post-release lives, from recognizing manipulation to fostering nonviolent communication. Hutchful especially appreciates the principle that “you need to attack the problem, not the person,” saying, “This class teaches you how to deal with all aspects of people—angry people, impatient people. You’re not being triggered to react.”  Perlman has taught Nonviolence as a Way of Life nearly every semester since TEJI launched. Samuel Tukua ’25 took the class a few years ago. Like Hutchful, he has applied its lessons.  “I wouldn’t be TAing it for the third year now if it didn’t have this incredible impact on my life,” Tukua says.  Meeting incarcerated people did not in itself shift Tukua’s outlook; their stories didn’t surprise him, given his own upbringing in a low-income neighborhood near Atlanta. But watching learners from a range of backgrounds find common ground in big philosophical ideas helped convince him of those ideas’ validity. For example, he started to notice undercurrents of violence in everyday actions and speech.  “It doesn’t matter whether you came from a highly violent background or if you came from a privileged, less violent background,” he says he realized. “That kind of inner violence or that kind of learned treatment exists inside all of us.”  Marisa Gaetz ’20, a fifth-year PhD candidate in math at MIT, has stayed in TEJI’s orbit in the seven years since its founding—first as a student, then as a teaching assistant, and now by helping to run its computer science classes.  Limitations on in-person programming imposed by the covid-19 pandemic led Gaetz and fellow MIT grad student Martin Nisser, SM ’19, PhD ’24, to develop remote computer education classes for incarcerated TEJI students. In 2021, she and Nisser (now an assistant professor at the University of Washington) joined with Emily Harburg, a tech access advocate, to launch Brave Behind Bars, which partners closely with TEJI to teach Intro to Python, web development, and game design in both English and Spanish to incarcerated people across the US and formerly incarcerated students in Colombia and Mexico.  Since many inside students have laptop access only during class time, the remote computer courses typically begin with a 30-minute lecture followed by Zoom breakouts with teaching assistants. A ratio of one TA for every three or four students ensures that “each student feels supported, especially with coding, which can be frustrating if you’re left alone with a bug for too long,” Gaetz says.  Gaetz doesn’t always get to hear how things work out for her students,but she’s learned of encouraging outcomes. One Brave Behind Bars TA who got his start in their classes is now a software engineer. Another group of alums founded Reentry Sisters, an organization for formerly incarcerated women. “They made their own website using the skills that they learned in our class,” Gaetz says. “That was really amazing to see.” Although the pandemic spurred some prisons to expand use of technology, applying those tools to education in a coordinated way requires the kind of bridge-building TEJI has become known for since forming the Massachusetts Prison Education Consortium (MPEC) in 2018. “I saw there were a bunch of colleges doing various things in prisons and we weren’t really talking to each other,” says Perlman. TEJI secured funding from the Mellon Foundation and quickly expanded MPEC’s membership to more than 80 educational institutions, corrections organizations, and community-based agencies. Millwood says the School of Reentry has doubled its capacity and program offerings thanks to collaborations developed through MPEC. At the regional level, TEJI teamed up with the New England Board of Higher Education in 2022 to create the New England Commission on the Future of Higher Education in Prison. Its formation was prompted in part by the anticipated increase in demand for high-quality prison education programs thanks to the FAFSA Simplification Act, which as of 2023 reversed a nearly three-decade ban on awarding federal Pell grants to incarcerated people. Participants included leaders from academia and correctional departments as well as formerly incarcerated people. One, Daniel Throop, cochaired a working group called “Career, Workforce, and Employer Connections” just a few months after his release.  “I lived out a reentry while I was on the commission in a way that was very, very powerful,” Throop says. “I was still processing in real time.”  “Most of the people I teach behind bars are people that have had terrible experiences with education and don’t feel themselves to be very capable at all.” Lee Perlman, PhD ’89 During his incarceration in Massachusetts, Throop had revived the long-defunct Norfolk Prison Debating Society, which went head-to-head with university teams including MIT’s. Credits from his classes, including two with Perlman, culminated in a bachelor’s degree in interdisciplinary studies magna cum laude from Boston University, which he earned before his release. But he still faced big challenges. “Having a criminal record is still a very, very real hurdle,” Throop says. “I was so excited when those doors of prison finally opened after two decades, only to be greatly discouraged that so many doors of the community remained closed to me.”  Initially, the only employment he could get was loading UPS trucks by day and unloading FedEx trucks by night. He eventually landed a job with the Massachusetts Bail Fund and realized his goal of launching the National Prison Debate League.  “I fortunately had the educational credentials and references and the wherewithal to not give up on myself,” says Throop. “A lot of folks fail with less resources and privilege and ability and support.” The commission’s 2023 report advocates for improved programming and support for incarcerated learners spanning the intake, incarceration, and reentry periods. To help each state implement the recommendations, the New England Prison Education Collaborative (NEPEC) launched in October 2024 with funding from the Ascendium Education Group. Perlman encouraged TEJI alumna Nicole O’Neal, then working at Tufts University, to apply for the position she now holds as a NEPEC project manager.  Like Throop, O’Neal has firsthand experience with the challenges of reentry. Despite the stigma of having served time, having a transcript with credits earned during the period she was incarcerated “proved valuable for both job applications and securing housing,” she says. With the help of a nonprofit called Partakers and “a lot of personal initiative,” she navigated the confusing path to matriculation on Boston University’s campus, taking out student loans so she could finish the bachelor’s degree she’d begun in prison. A master’s followed. “I’ve always known that education was going to be my way out of poverty,” she says. From her vantage point at NEPEC, O’Neal sees how TEJI’s approach can inspire other programs. “What truly sets TEJI apart is the way that it centers students as a whole, as people and not just as learners,” she says. “Having the opportunity to take an MIT course during my incarceration wasn’t just about earning credits—it was about being seen as capable of engaging with the same level of intellectual rigor as students outside. That recognition changed how I saw myself and my future.” On a Zoom call one Wednesday evening in December, Perlman’s inside-out course on Stoicism is wrapping up. Most participants are women incarcerated in Maine. These are among Perlman’s most advanced and long-standing students, thanks to the state’s flexible approach to prison education—Perlman says it’s “maybe the most progressive system in the country,” early to adopt remote learning, experiment with mixed-gender classes, and allow email communication between teachers and students.  The mood is convivial, the banter peppered with quotes from the likes of Marcus Aurelius and Epictetus. More than one student is crocheting a Christmas gift, hands working busily at the edges of their respective Zoom rectangles.  As the students review what they’ve learned, the conversation turns to the stereotype of Stoicism as a lack of emotion. “I get the feeling the Stoics understood their emotions better than most because they weren’t puppets to their emotions,” says a student named Nicole. “They still feel things—they’re just not governed by it.” Jay Ferran, an incarcerated student at the Boston Pre-Release Center, presents a game to help recap what the class learned over the semester.JAY DIAS/MASSACHUSETTS DEPARTMENT OF CORRECTION Jade, who is a year into a 16-month sentence, connects this to her relationship with her 14-month-old son: “I think I would be a bad Stoic in how I love him. That totally governs me.” Perlman, a bit mischievously: “Does anyone want to talk Jade into being a Stoic mother?”  Another classmate, Victoria, quips: “I think you’d like it better when he’s a teenager.” When the laughter dies down, she says more seriously, “I think it’s more about not allowing your emotions to carry you away.” But she adds that it’s hard to do that as a parent.   “Excessive worry is also a hindrance,” Jade concedes. “So how do I become a middle Stoic?” “A middle Stoic would be an Aristotelian, I think,” muses Perlman. When the conversation comes around to amor fati, the Stoic notion of accepting one’s fate, Perlman asks how successful his students have been at this. The group’s sole participant from a men’s facility, Arthur, confesses that he has struggled with this over more than 20 years in prison. But for the last few years, school has brought him new focus. He helps run a space where other residents can study. “I hear you saying you can only love your fate if you have a telos, a purpose,” Perlman says. “I was always teaching people things to survive or get ahead by any means necessary,” Arthur says. “Now it’s positive building blocks.” “Education is my telos, and when I couldn’t access it at first, I had to focus on what was in my control,” says Victoria. “I framed my prison experiences as refusing to be harmed by the harmful process of incarceration. I’m going to use this opportunity for myself … so I can be who I want to be when I leave here.”  Soon after, the video call—and the course—ends. But if Perlman’s former students’ experience is any indication, the ideas their teacher has introduced will continue to percolate. O’Neal, who took Perlman’s Philosophy of Love, is still mulling over an exploration of loyalty in Tristan and Isolde that brought a classmate to tears. She thinks Perlman’s ability to nurture dialogue on sensitive topics begins with his relaxed demeanor—a remarkable quality in the prison environment. “It’s like you’re coming to our house. A lot of [people] show up as guests. Lee shows up like someone who’s been around—you know, and he’s willing to clean up the dishes with you. He just feels at home,” she says. “So he made us feel at home.”  Throop becomes animated when he describes taking Philosophy of the Self and Soul with Perlman and MIT students at MCI-Norfolk in 2016.  “Over those days and weeks, we got to meet and discuss the subject ­matter—walking around the prison yards together, my classmates and I, and then coming back and having these almost indescribable—I’m rarely at a loss for words!—weekly class discussions,” Throop remembers. Perlman “would throw one big question out there, and he would sit back and patiently let us all chop that material up,” he adds. “These discussions were like the highlight of all of our weeks, because we got to have this super-cool exchange of ideas, testing our perspectives … And then these 18-to-20-year-old students who were coming in with a whole different worldview, and being able to have those worldviews collide in a healthy way.”   “We all were having such enriching discussions that the semester flew by,” he says. “You didn’t want school to end.” 

It all began with a simple origami model.  As an undergrad at Harvard, Danna Freedman went to a professor’s office hours for her general chemistry class and came across an elegant paper model that depicted the fullerene molecule. The intricately folded representation of chemical bonds and atomic arrangements sparked her interest, igniting a profound curiosity about how the structure of molecules influences their function.  She stayed and chatted with the professor after the other students left, and he persuaded her to drop his class so she could instead dive immediately into the study of chemistry at a higher level. Soon she was hooked. After graduating with a chemistry degree, Freedman earned a PhD at the University of California, Berkeley, did a postdoc at MIT, and joined the faculty at Northwestern University. In 2021, she returned to MIT as the Frederick George Keyes Professor of Chemistry. Freedman’s fascination with the relationship between form and function at the molecular level laid the groundwork for a trailblazing career in quantum information science, eventually leading her to be honored with a 2022 MacArthur fellowship—and the accompanying “genius” grant—as one of the leading figures in the field. Today, her eyes light up when she talks about the “beauty” of chemistry, which is how she sees the intricate dance of atoms that dictates a molecule’s behavior. At MIT, Freedman focuses on creating novel molecules with specific properties that could revolutionize the technology of sensing, leading to unprecedented levels of precision.  Designer molecules Early in her graduate studies, Freedman noticed that many chemistry research papers claimed to contribute to the development of quantum computing, which exploits the behavior of matter at extremely small scales to deliver much more computational power than a conventional computer can achieve. While the ambition was clear, Freedman wasn’t convinced. When she read these papers carefully, she found that her skepticism was warranted. “I realized that nobody was trying to design magnetic molecules for the actual goal of quantum computing!” she says. Such molecules would be suited to acting as quantum bits, or qubits, the basic unit of information in quantum systems. But the research she was reading about had little to do with that.  Nevertheless, that realization got Freedman thinking—could molecules be designed to serve as qubits? She decided to find out. Her work made her among the first to use chemistry in a way that demonstrably advanced the field of quantum information science, which she describes as a general term encompassing the use of quantum technology for computation, sensing, measurement, and communication.  Unlike traditional bits, which can only equal 0 or 1, qubits are capable of “superposition”—simultaneously existing in multiple states. This is why quantum computers made from qubits can solve large problems faster than classical computers. Freedman, however, has always been far more interested in tapping into qubits’ potential to serve as exquisitely precise sensors. Qubits store information in quantum properties that can be easily disrupted. While the delicacy of those properties makes qubits hard to control, it also makes them especially sensitive and therefore very useful as sensors. Qubits encode information in quantum properties—such as spin and energy—that can be easily disrupted. While the delicacy of those properties makes qubits hard to control, it also makes them especially sensitive and therefore very useful as sensors. Harnessing the power of qubits is notoriously tricky, though. For example, two of the most common types—superconducting qubits, which are often made of thin aluminum layers, and trapped-ion qubits, which use the energy levels of an ion’s electrons to represent 1s and 0s—must be kept at temperatures approaching absolute zero (–273 °C). Maintaining special refrigerators to keep them cool can be costly and difficult. And while researchers have made significant progress recently, both types of qubits have historically been difficult to connect into larger systems. Eager to explore the potential of molecular qubits, Freedman has pioneered a unique “bottom-up” approach to creating them: She designs novel molecules with specific quantum properties to serve as qubits targeted for individual applications. Instead of focusing on a general goal such as maximizing coherence time (how long a qubit can preserve its quantum state), she begins by asking what kinds of properties are needed for, say, a sensor meant to measure biological phenomena at the molecular level. Then she and her team set out to create molecules that have these properties and are suitable for the environment where they’d be used. To determine the precise structure of a new molecule, Freedman’s team uses software to analyze and process visualizations (such as those in teal and pink above) of data collected by an x-ray diffractometer. The diagram at right depicts an organometallic Cr(IV) complex made of a central chromium atom and four hydrocarbon ligands.COURTESY OF DANNA FREEDMAN Made of a central metallic atom surrounded by hydrocarbon atoms, molecular qubits store information in their spin. The encoded information is later translated into photons, which are emitted to “read out” the information. These qubits can be tuned with laser precision—imagine adjusting a radio dial—by modifying the strength of the ligands, or bonds, connecting the hydrocarbons to the metal atom. These bonds act like tiny tuning forks; by adjusting their strength, the researchers can precisely control the qubit’s spin and the wavelength of the emitted photons. That emitted light can be used to provide information about atomic-level changes in electrical or magnetic fields.  While many researchers are eager to build reliable, scalable quantum computers, Freedman and her group devote most of their attention to developing custom molecules for quantum sensors. These ultrasensitive sensors contain particles in a state so delicately balanced that extremely small changes in their environments unbalance them, causing them to emit light differently. For example, one qubit designed in Freedman’s lab, made of a chromium atom surrounded by four hydrocarbon molecules, can be customized so that tiny changes in the strength of a nearby magnetic field will change its light emissions in a particular way.   A key benefit of using such molecules for sensing is that they are small enough—just a nanometer or so wide—to get extremely close to the thing they are sensing. That can offer an unprecedented level of precision when measuring something like the surface magnetism of two-­dimensional materials, since the strength of a magnetic field decays with distance. A molecular quantum sensor “might not be more inherently accurate than a competing quantum sensor,” says Freedman, “but if you can lose an order of magnitude of distance, that can give us a lot of information.” Quantum sensors’ ability to detect electric or magnetic changes at the atomic level and make extraordinarily precise measurements could be useful in many fields, such as environmental monitoring, medical diagnostics, geolocation, and more. When designing molecules to serve as quantum sensors, Freedman’s group also factors in the way they can be expected to act in a specific sensing environment. Creating a sensor for water, for example, requires a water-compatible molecule, and a sensor for use at very low temperatures requires molecules that are optimized to perform well in the cold. By custom-­engineering molecules for different uses, the Freedman lab aims to make quantum technology more versatile and widely adaptable. Embracing interdisciplinarity As Freedman and her group focus on the highly specific work of designing custom molecules, she is keenly aware that tapping into the power of quantum science depends on the collective efforts of scientists from different fields. “Quantum is a broad and heterogeneous field,” she says. She believes that attempts to define it narrowly hurt collective research—and that scientists must welcome collaboration when the research leads them beyond their own field. Even in the seemingly straightforward scenario of using a quantum computer to solve a chemistry problem, you would need a physicist to write a quantum algorithm, engineers and materials scientists to build the computer, and chemists to define the problem and identify how the quantum computer might solve it.  MIT’s collaborative environment has helped Freedman connect with researchers in different disciplines, which she says has been instrumental in advancing her research. She’s recently spoken with neurobiologists who proposed problems that quantum sensing could potentially solve and provided helpful context for building the sensors. Looking ahead, she’s excited about the potential applications of quantum science in many scientific fields. “MIT is such a great place to nucleate a lot of these connections,” she says. “As quantum expands, there are so many of these threads which are inherently interdisciplinary,” she says. Inside the lab Freedman’s lab in Building 6 is a beehive of creativity and collaboration. Against a backdrop of colorful flasks and beakers, researchers work together to synthesize molecules, analyze their structures, and unlock the secrets hidden within their intricate atomic arrangements. “We are making new molecules and putting them together atom by atom to discover whether they have the properties we want,” says Christian Oswood, a postdoctoral fellow.  Some sensitive molecules can only be made in the lab’s glove box, a nitrogen-filled transparent container that protects chemicals from oxygen and water in the ambient air. An example is an organometallic solution synthesized by one of Freedman’s graduate students, David Ullery, which takes the form of a vial of purple liquid. (“A lot of molecules have really pretty colors,” he says.) Freedman is a passionate educator, dedicated to demystifying the complexities of chemistry for her students. Aware that many of them find the subject daunting, she strives to go beyond textbook equations. Once synthesized, the molecules are taken to a single-crystal x-ray diffractometer a few floors below the Freedman lab. There, x-rays are directed at crystallized samples, and from the diffraction pattern, researchers can deduce their molecular structure—how the atoms connect. Studying the precise geometry of these synthesized molecules reveals how the structure affects their quantum properties, Oswood explains. Researchers and students at the lab say Freedman’s cross-disciplinary outlook played a big role in drawing them to it. With a chemistry background and a special interest in physics, for example, Ullery joined because he was excited by the way Freedman’s research bridges those two fields.  Crystals of an organometallic Cr(IV) complex. Freedman’s lab designed a series of molecules like this one to detect changes in a magnetic field.COURTESY OF DANNA FREEDMAN Others echo this sentiment. “The opportunity to be in a field that’s both new and expanding like quantum science, and attacking it from this specific angle, was exciting to me both intellectually and professionally,” says Oswood. Another graduate student, Cindy Serena Ngompe Massado, says she enjoys being part of the lab because she gets to collaborate with scientists in other fields. “It allows you to really approach scientific challenges in a more holistic and productive way,” she says. Though the researchers spend most of their time synthesizing and analyzing molecules, fun infuses the lab too. Freedman checks in with everyone frequently, and conversations often drift beyond just science. She’s just as comfortable chatting about Taylor Swift and Travis Kelce as she is discussing research. “Danna is very personable and very herself with us,” Ullery says. “It adds a bit of levity to being in an otherwise stressful grad school environment.” Bringing textbook chemistry to life In the classroom, Freedman is a passionate educator, dedicated to demystifying the complexities of chemistry for her students. Aware that many of them find the subject daunting, she strives to go beyond textbook equations. For each lecture in her advanced inorganic chemistry classes, she introduces the “molecule of the day,” which is always connected to the lesson plan. When teaching about bimetallic molecules, for example, she showcased the potassium rubidium molecule, citing active research at Harvard aimed at entangling its nuclear spins. For a lecture on superconductors, she brought a sample of the superconducting material yttrium barium copper oxide that students could handle.  Chemistry students often think “This is painful” or “Why are we learning this?” Freedman says. Making the subject matter more tangible and showing its connection to ongoing research spark students’ interest and underscore the material’s relevance. Freedman sees frustrating research as an opportunity to discover new things. “I like students to work on at least one ‘safer’ project along with something more ambitious,” she says.M. SCOTT BRAUER/MIT NEWS OFFICE Freedman believes this is an exceptionally exciting time for budding chemists. She emphasizes the importance of curiosity and encourages them to ask questions. “There is a joy to being able to walk into any room and ask any question and extract all the knowledge that you can,” she says.  In her own research, she embodies this passion for the pursuit of knowledge, framing challenges as stepping stones to discovery. When she was a postdoc, her research on electron spins in synthetic materials hit what seemed to be a dead end that ultimately led to the discovery of a new class of magnetic material. So she tells her students that even the most difficult aspects of research are rewarding because they often lead to interesting findings.  That’s exactly what happened to Ullery. When he designed a molecule meant to be stable in air and water and emit light, he was surprised that it didn’t—and that threw a wrench into his plan to develop the molecule into a sensor that would emit light only under particular circumstances. So he worked with theoreticians in Giulia Galli’s group at the University of Chicago, developing new insights on what drives emission, and that led to the design of a new molecule that did emit light.  “Frustrating research is almost fun to deal with,” says Freedman, “even if it doesn’t always feel that way.” 

Hints and answers for the NYT Connections: Sports Edition puzzle, No. 212, for April 23.

The delays to the program could be designed to shift money towards Elon Musk's Starlink, one expert told CNET.

April 22, 20254 min readWhat We Know about Artificial Food Dyes and Health as RFK, Jr., Declares a U.S. BanThis week the secretary of health and human services announced plans to remove eight more food dyes from the U.S.’s food systemBy Lauren J. Young edited by Dean Visser Jena Ardell/Getty ImagesOn Tuesday Robert F. Kennedy, Jr., announced plans to order the U.S. food industry to eliminate eight petroleum-based food dyes within the next two years, based on some evidence that links them to health risks.The move by Kennedy, the Trump administration’s secretary of the Department of Health and Human Services, follows his earlier promises to ban various chemical food additives—including artificial colorings that are commonly used to brighten rainbow-colored cereals, pastries, chips, candies and other processed foods. Individual states, such as California and West Virginia, have also independently pushed legislation to ban certain food dyes and preservatives this year. At today’s press event, Kennedy discussed the directive and various claims about the nutritional value of foods alongside Food and Drug Administration director Marty Makary, National Institutes of Health director Jay Bhattacharya and other public officials. Makary said they will establish a timeline for the food industry transition to “natural alternatives.”“There’s no reason not to remove [such artificial food dyes] if they're there just for visual appeal. If there’s no health-promoting purpose, and there’s actually even the slightest risk of detriments to health, then why not remove them?” says Kathleen Melanson, a nutritional scientist at the University of Rhode Island. She adds, however, that these chemical dyes are likely only part of the problem. “There’s so much more to food than single factors,” Melanson says.On supporting science journalismIf you're enjoying this article, consider supporting our award-winning journalism by subscribing. By purchasing a subscription you are helping to ensure the future of impactful stories about the discoveries and ideas shaping our world today.What It MeansThe FDA currently certifies nine color additives for use in foods. By this past January the outgoing Biden administration had already started the process to ban one of them, Red No. 3. Kennedy will target the other eight artificial food dyes, such as Yellow No. 5, Blue No. 1 and Red No. 40.The decision to ban Red No. 3 was based on a study in which male rats developed thyroid tumors after being exposed to high levels of the substance. Even though other studies in humans and animals failed to show similar results, the dye was banned under the Federal Food, Drug and Cosmetics Act’s Delaney Clause, explains Tracy Crane, an associate professor of medical oncology at the Sylvester Comprehensive Cancer Center, part of the University of Miami Miller School of Medicine and the University of Miami Health System.“In the Delaney Clause, [proponents of the ban] were able to state that anything that caused cancer in humans or animals could be eliminated from the diet, and that’s what happened with Red No. 3,” says Crane, who had wondered if other food dyes would experience the same fate. “There are definitely studies for some of these [dyes] that are on the list that have shown cancer-causing properties in mice.”What the Evidence SaysOlder animal studies have associated some blue, yellow and red dyes with risks of tumor development and neurotoxicity. Some research suggests the neurotoxicity may contribute to attention deficit hyperactivity disorder. Melanson calls the evidence “mixed,” however. Direct exposure has only been tested in animals. Human data have been mostly limited to population or epidemiological studies—in which participants have been asked to recall and self-report the foods they’ve eaten. This has led some scientists to say there is not enough information to make conclusions about food dyes’ potential health threats.An FDA research review on food dyes’ potential effects on children’s behavior also concluded that most children didn’t experience adverse effects, though some individuals may be sensitive to some dyes. The FDA states that color additives are safe to consume when they are used according to the agency’s regulations. And the International Association of Color Manufacturers, a group representing the global color industry, has previously said that the small levels of artificial food dyes that humans typically eat are generally safe. (At press time, the association has not responded to a request for comment from Scientific American.)“The danger is always in the dose,” Melanson says.A Wall Street Journal analysis evaluated U.S. Department of Agriculture data for more than 450,000 food products and found that 10 percent contained at least one artificial dye—and that more than 40 percent had multiple dyes. “When food additives are approved, they’re generally tested one at a time,” Melanson says. “We don’t know what happens with interactions.”Consuming a food with multiple dyes makes it difficult to know the total dose that has been ingested, Melanson says. The accumulative effects of a whole diet comprised of many different foods with artificial dyes, consumed over a lifetime, is even harder to assess. A disease like cancer takes a long time develop, Crane says, noting, “It’s very hard for us to really know what the direct impact of these food diets is.” She adds that not all the dyes are made the same and each may be processed in the body differently.Melanson and Crane agree that food dyes are just one ingredient that may contribute to health risks.“It’s not just about one type of ingredients; it’s about every ingredient that’s in there,” Melanson says. “If it's all tunnel vision on one factor without considering these other potential risk factors—the excess of sodium and sugar and processing, lack of fiber, lack of fortifying nutrients—then we might be missing some aspects.”More details are pending, but it’s expected that food manufacturers may have to alter their production practices or consider alternative coloring additives. Natural, food-based sources such as turmeric, paprika, pumpkin or carrot have been used as well. But it’s unclear what the transition will cost manufacturers and federal agencies, Melanson says. Currently, manufacturers have until 2027 to remove Red No. 3 from food products and until 2028 to remove it from medicines. At today’s press briefing, however, RFK, Jr., and other health officials asserted that this dye and the others need to be removed sooner, though no official timeline was presented.“I know these procedures take time, and food manufacturers have to reformulate,” Melanson says. “But in the meantime, Americans can consider backing off ultraprocessed foods—the ones that are obviously at the high end of the spectrum of processing and formulation.”