Latest news with #RobertOppenheimer
Yomiuri Shimbun
22-07-2025
- Entertainment
- Yomiuri Shimbun
Actors Give ‘Oppenheimer' the Noh Treatment in English; Performances to Mark 80th Anniversaries of A-Bombings
The ghost of physicist Robert Oppenheimer (1904-1967), who led the development of the U.S. atomic bomb, is the main character of a noh play titled 'Oppenheimer,' which will be performed in English at Kita Noh Theater in the Meguro area of Tokyo, on Aug. 6 and 9. The play will be presented by members of Theater Nohgaku, a group of mainly American performers studying noh. Marking 80 years since the atomic bombings of Hiroshima and Nagasaki, it will raise questions about the nuclear threat as a global issue. The play's setting is an old temple in Hiroshima. Speaking to a pilgrim, Oppenheimer's ghost admits his anguish over causing tragedy by making the atomic bombs. As he confesses, the ghost becomes prepared to take upon himself responsibility for the sin of inflicting suffering on mankind. The production is organized by Theater Nohgaku and the Yanai Initiative, a collaboration between Waseda University and the University of California, Los Angeles (UCLA). The work was written in 2015 and will be performed in Japan for the first time. The music was composed by Theater Nohgaku member Richard Emmert, 75, a professor emeritus at Musashino University. He said it is significant to stage the performances on Aug. 6 and 9, the dates on which the two cities were bombed. John Oglevee, 54, who plays the lead role, said that noh is more of a prayer than a play. He hopes that everyone will remember the tragedy of the atomic bombings. Yanai Initiative Director Michael Emmerich, 49, a professor at Waseda University and UCLA, said that nuclear arms are horrific devices that expose people to radiation at various stages of the weapons' development, manufacture, storage and dismantlement. He believes that having Theater Nohgaku, which brings together people from the United States and other countries, perform 'Oppenheimer' as an English noh play will strongly convey the message that nuclear weapons are a global problem. For tickets, contact Kita Noh Theater at (03) 3491-8813.
The Guardian
21-07-2025
- Science
- The Guardian
Human-level AI is not inevitable. We have the power to change course
'Technology happens because it is possible,' OpenAI CEO, Sam Altman, told the New York Times in 2019, consciously paraphrasing Robert Oppenheimer, the father of the atomic bomb. Altman captures a Silicon Valley mantra: technology marches forward inexorably. Another widespread techie conviction is that the first human-level AI – also known as artificial general intelligence (AGI) – will lead to one of two futures: a post-scarcity techno-utopia or the annihilation of humanity. For countless other species, the arrival of humans spelled doom. We weren't tougher, faster or stronger – just smarter and better coordinated. In many cases, extinction was an accidental byproduct of some other goal we had. A true AGI would amount to creating a new species, which might quickly outsmart or outnumber us. It could see humanity as a minor obstacle, like an anthill in the way of a planned hydroelectric dam, or a resource to exploit, like the billions of animals confined in factory farms. Altman, along with the heads of the other top AI labs, believes that AI-driven extinction is a real possibility (joining hundreds of leading AI researchers and prominent figures). Given all this, it's natural to ask: should we really try to build a technology that may kill us all if it goes wrong? Perhaps the most common reply says: AGI is inevitable. It's just too useful not to build. After all, AGI would be the ultimate technology – what a colleague of Alan Turing called 'the last invention that man need ever make'. Besides, the reasoning goes within AI labs, if we don't, someone else will do it – less responsibly, of course. A new ideology out of Silicon Valley, effective accelerationism (e/acc), claims that AGI's inevitability is a consequence of the second law of thermodynamics and that its engine is 'technocapital'. The e/acc manifesto asserts: 'This engine cannot be stopped. The ratchet of progress only ever turns in one direction. Going back is not an option.' For Altman and e/accs, technology takes on a mystical quality – the march of invention is treated as a fact of nature. But it's not. Technology is the product of deliberate human choices, motivated by myriad powerful forces. We have the agency to shape those forces, and history shows that we've done it before. No technology is inevitable, not even something as tempting as AGI. Some AI worriers like to point out the times humanity resisted and restrained valuable technologies. Fearing novel risks, biologists initially banned and then successfully regulated experiments on recombinant DNA in the 1970s. No human has been reproduced via cloning, even though it's been technically possible for over a decade, and the only scientist to genetically engineer humans was imprisoned for his efforts. Nuclear power can provide consistent, carbon-free energy, but vivid fears of catastrophe have motivated stifling regulations and outright bans. And if Altman were more familiar with the history of the Manhattan Project, he might realize that the creation of nuclear weapons in 1945 was actually a highly contingent and unlikely outcome, motivated by a mistaken belief that the Germans were ahead in a 'race' for the bomb. Philip Zelikow, the historian who led the 9/11 Commission, said: 'I think had the United States not built an atomic bomb during the Second World War, it's actually not clear to me when or possibly even if an atomic bomb ever is built.' It's now hard to imagine a world without nuclear weapons. But in a little-known episode, then president Ronald Reagan and Soviet leader Mikhail Gorbachev nearly agreed to ditch all their bombs (a misunderstanding over the 'Star Wars' satellite defense system dashed these hopes). Even though the dream of full disarmament remains just that, nuke counts are less than 20% of their 1986 peak, thanks largely to international agreements. These choices weren't made in a vacuum. Reagan was a staunch opponent of disarmament before the millions-strong Nuclear Freeze movement got to him. In 1983, he commented to his secretary of state : 'If things get hotter and hotter and arms control remains an issue, maybe I should go see [Soviet leader Yuri] Andropov and propose eliminating all nuclear weapons.' There are extremely strong economic incentives to keep burning fossil fuels, but climate advocacy has pried open the Overton window and significantly accelerated our decarbonization efforts. In April 2019, the young climate group Extinction Rebellion (XR) brought London to a halt, demanding the UK target net-zero carbon emissions by 2025. Their controversial civil disobedience prompted parliament to declare a climate emergency and the Labour party to adopt a 2030 target to decarbonize the UK's electricity production. The Sierra Club's Beyond Coal campaign was lesser-known but wildly effective. In just its first five years, the campaign helped shutter more than one-third of US coal plants. Thanks primarily to its move from coal, US per capita carbon emissions are now lower than they were in 1913. In many ways, the challenge of regulating efforts to build AGI is much smaller than that of decarbonizing. Eighty-two percent of global energy production comes from fossil fuels. Energy is what makes civilization work, but we're not dependent on a hypothetical AGI to make the world go round. Further, slowing and guiding the development of future systems doesn't mean we'd need to stop using existing systems or developing specialist AIs to tackle important problems in medicine, climate and elsewhere. It's obvious why so many capitalists are AI enthusiasts: they foresee a technology that can achieve their long-time dream of cutting workers out of the loop (and the balance sheet). But governments are not profit maximizers. Sure, they care about economic growth, but they also care about things like employment, social stability, market concentration, and, occasionally, democracy. It's far less clear how AGI would affect these domains overall. Governments aren't prepared for a world where most people are technologically unemployed. Capitalists often get what they want, particularly in recent decades, and the boundless pursuit of profit may undermine any regulatory effort to slow the speed of AI development. But capitalists don't always get what they want. At a bar in San Francisco in February, a longtime OpenAI safety researcher pronounced to a group that the e/accs shouldn't be worried about the 'extreme' AI safety people, because they'll never have power. The boosters should actually be afraid of AOC and Senator Josh Hawley because they 'can really fuck things up for you'. Assuming humans stick around for many millennia, there's no way to know we won't eventually build AGI. But this isn't really what the inevitabilists are saying. Instead, the message tends to be: AGI is imminent. Resistance is futile. But whether we build AGI in five, 20 or 100 years really matters. And the timeline is far more in our control than the boosters will admit. Deep down, I suspect many of them realize this, which is why they spend so much effort trying to convince others that there's no point in trying. Besides, if you think AGI is inevitable, why bother convincing anybody? We actually had the computing power required to train GPT-2 more than a decade before OpenAI actually did it, but people didn't know whether it was worth doing. But right now, the top AI labs are locked in such a fierce race that they aren't implementing all the precautions that even their own safety teams want. (One OpenAI employee announced recently that he quit 'due to losing confidence that it would behave responsibly around the time of AGI'.) There's a 'safety tax' that labs can't afford to pay if they hope to stay competitive; testing slows product releases and consumes company resources. Governments, on the other hand, aren't subject to the same financial pressures. An inevitabilist tech entrepreneur recently said regulating AI development is impossible 'unless you control every line of written code'. That might be true if anyone could spin up an AGI on their laptop. But it turns out that building advanced, general AI models requires enormous arrays of supercomputers, with chips produced by an absurdly monopolistic industry. Because of this, many AI safety advocates see 'compute governance' as a promising approach. Governments could compel cloud computing providers to halt next generation training runs that don't comply with established guardrails. Far from locking out upstarts or requiring Orwellian levels of surveillance, thresholds could be chosen to only affect players who can afford to spend more than $100m on a single training run. Governments do have to worry about international competition and the risk of unilateral disarmament, so to speak. But international treaties can be negotiated to widely share the benefits from cutting-edge AI systems while ensuring that labs aren't blindly scaling up systems they don't understand. And while the world may feel fractious, rival nations have cooperated to surprising degrees. The Montreal Protocol fixed the ozone layer by banning chlorofluorocarbons. Most of the world has agreed to ethically motivated bans on militarily useful weapons, such as biological and chemical weapons, blinding laser weapons, and 'weather warfare'. In the 1960s and 70s, many analysts feared that every country that could build nukes, would. But most of the world's roughly three-dozen nuclear programs were abandoned. This wasn't the result of happenstance, but rather the creation of a global nonproliferation norm through deliberate statecraft, like the 1968 Non-Proliferation Treaty. On the few occasions when Americans were asked if they wanted superhuman AI, large majorities said 'no'. Opposition to AI has grown as the technology has become more prevalent. When people argue that AGI is inevitable, what they're really saying is that the popular will shouldn't matter. The boosters see the masses as provincial neo-Luddites who don't know what's good for them. That's why inevitability holds such rhetorical allure for them; it lets them avoid making their real argument, which they know is a loser in the court of public opinion. The draw of AGI is strong. But the risks involved are potentially civilization-ending. A civilization-scale effort is needed to compel the necessary powers to resist it. Technology happens because people make it happen. We can choose otherwise. Garrison Lovely is a freelance journalist
The Guardian
21-07-2025
- Science
- The Guardian
Human-level AI is not inevitable. We have the power to change course
'Technology happens because it is possible,' OpenAI CEO, Sam Altman, told the New York Times in 2019, consciously paraphrasing Robert Oppenheimer, the father of the atomic bomb. Altman captures a Silicon Valley mantra: technology marches forward inexorably. Another widespread techie conviction is that the first human-level AI – also known as artificial general intelligence (AGI) – will lead to one of two futures: a post-scarcity techno-utopia or the annihilation of humanity. For countless other species, the arrival of humans spelled doom. We weren't tougher, faster or stronger – just smarter and better coordinated. In many cases, extinction was an accidental byproduct of some other goal we had. A true AGI would amount to creating a new species, which might quickly outsmart or outnumber us. It could see humanity as a minor obstacle, like an anthill in the way of a planned hydroelectric dam, or a resource to exploit, like the billions of animals confined in factory farms. Altman, along with the heads of the other top AI labs, believes that AI-driven extinction is a real possibility (joining hundreds of leading AI researchers and prominent figures). Given all this, it's natural to ask: should we really try to build a technology that may kill us all if it goes wrong? Perhaps the most common reply says: AGI is inevitable. It's just too useful not to build. After all, AGI would be the ultimate technology – what a colleague of Alan Turing called 'the last invention that man need ever make'. Besides, the reasoning goes within AI labs, if we don't, someone else will do it – less responsibly, of course. A new ideology out of Silicon Valley, effective accelerationism (e/acc), claims that AGI's inevitability is a consequence of the second law of thermodynamics and that its engine is 'technocapital'. The e/acc manifesto asserts: 'This engine cannot be stopped. The ratchet of progress only ever turns in one direction. Going back is not an option.' For Altman and e/accs, technology takes on a mystical quality – the march of invention is treated as a fact of nature. But it's not. Technology is the product of deliberate human choices, motivated by myriad powerful forces. We have the agency to shape those forces, and history shows that we've done it before. No technology is inevitable, not even something as tempting as AGI. Some AI worriers like to point out the times humanity resisted and restrained valuable technologies. Fearing novel risks, biologists initially banned and then successfully regulated experiments on recombinant DNA in the 1970s. No human has been reproduced via cloning, even though it's been technically possible for over a decade, and the only scientist to genetically engineer humans was imprisoned for his efforts. Nuclear power can provide consistent, carbon-free energy, but vivid fears of catastrophe have motivated stifling regulations and outright bans. And if Altman were more familiar with the history of the Manhattan Project, he might realize that the creation of nuclear weapons in 1945 was actually a highly contingent and unlikely outcome, motivated by a mistaken belief that the Germans were ahead in a 'race' for the bomb. Philip Zelikow, the historian who led the 9/11 Commission, said: 'I think had the United States not built an atomic bomb during the Second World War, it's actually not clear to me when or possibly even if an atomic bomb ever is built.' It's now hard to imagine a world without nuclear weapons. But in a little-known episode, then president Ronald Reagan and Soviet leader Mikhail Gorbachev nearly agreed to ditch all their bombs (a misunderstanding over the 'Star Wars' satellite defense system dashed these hopes). Even though the dream of full disarmament remains just that, nuke counts are less than 20% of their 1986 peak, thanks largely to international agreements. These choices weren't made in a vacuum. Reagan was a staunch opponent of disarmament before the millions-strong Nuclear Freeze movement got to him. In 1983, he commented to his secretary of state : 'If things get hotter and hotter and arms control remains an issue, maybe I should go see [Soviet leader Yuri] Andropov and propose eliminating all nuclear weapons.' There are extremely strong economic incentives to keep burning fossil fuels, but climate advocacy has pried open the Overton window and significantly accelerated our decarbonization efforts. In April 2019, the young climate group Extinction Rebellion (XR) brought London to a halt, demanding the UK target net-zero carbon emissions by 2025. Their controversial civil disobedience prompted parliament to declare a climate emergency and the Labour party to adopt a 2030 target to decarbonize the UK's electricity production. The Sierra Club's Beyond Coal campaign was lesser-known but wildly effective. In just its first five years, the campaign helped shutter more than one-third of US coal plants. Thanks primarily to its move from coal, US per capita carbon emissions are now lower than they were in 1913. In many ways, the challenge of regulating efforts to build AGI is much smaller than that of decarbonizing. Eighty-two percent of global energy production comes from fossil fuels. Energy is what makes civilization work, but we're not dependent on a hypothetical AGI to make the world go round. Further, slowing and guiding the development of future systems doesn't mean we'd need to stop using existing systems or developing specialist AIs to tackle important problems in medicine, climate and elsewhere. It's obvious why so many capitalists are AI enthusiasts: they foresee a technology that can achieve their long-time dream of cutting workers out of the loop (and the balance sheet). But governments are not profit maximizers. Sure, they care about economic growth, but they also care about things like employment, social stability, market concentration, and, occasionally, democracy. It's far less clear how AGI would affect these domains overall. Governments aren't prepared for a world where most people are technologically unemployed. Capitalists often get what they want, particularly in recent decades, and the boundless pursuit of profit may undermine any regulatory effort to slow the speed of AI development. But capitalists don't always get what they want. At a bar in San Francisco in February, a longtime OpenAI safety researcher pronounced to a group that the e/accs shouldn't be worried about the 'extreme' AI safety people, because they'll never have power. The boosters should actually be afraid of AOC and Senator Josh Hawley because they 'can really fuck things up for you'. Assuming humans stick around for many millennia, there's no way to know we won't eventually build AGI. But this isn't really what the inevitabilists are saying. Instead, the message tends to be: AGI is imminent. Resistance is futile. But whether we build AGI in five, 20 or 100 years really matters. And the timeline is far more in our control than the boosters will admit. Deep down, I suspect many of them realize this, which is why they spend so much effort trying to convince others that there's no point in trying. Besides, if you think AGI is inevitable, why bother convincing anybody? We actually had the computing power required to train GPT-2 more than a decade before OpenAI actually did it, but people didn't know whether it was worth doing. But right now, the top AI labs are locked in such a fierce race that they aren't implementing all the precautions that even their own safety teams want. (One OpenAI employee announced recently that he quit 'due to losing confidence that it would behave responsibly around the time of AGI'.) There's a 'safety tax' that labs can't afford to pay if they hope to stay competitive; testing slows product releases and consumes company resources. Governments, on the other hand, aren't subject to the same financial pressures. An inevitabilist tech entrepreneur recently said regulating AI development is impossible 'unless you control every line of written code'. That might be true if anyone could spin up an AGI on their laptop. But it turns out that building advanced, general AI models requires enormous arrays of supercomputers, with chips produced by an absurdly monopolistic industry. Because of this, many AI safety advocates see 'compute governance' as a promising approach. Governments could compel cloud computing providers to halt next generation training runs that don't comply with established guardrails. Far from locking out upstarts or requiring Orwellian levels of surveillance, thresholds could be chosen to only affect players who can afford to spend more than $100m on a single training run. Governments do have to worry about international competition and the risk of unilateral disarmament, so to speak. But international treaties can be negotiated to widely share the benefits from cutting-edge AI systems while ensuring that labs aren't blindly scaling up systems they don't understand. And while the world may feel fractious, rival nations have cooperated to surprising degrees. The Montreal Protocol fixed the ozone layer by banning chlorofluorocarbons. Most of the world has agreed to ethically motivated bans on militarily useful weapons, such as biological and chemical weapons, blinding laser weapons, and 'weather warfare'. In the 1960s and 70s, many analysts feared that every country that could build nukes, would. But most of the world's roughly three-dozen nuclear programs were abandoned. This wasn't the result of happenstance, but rather the creation of a global nonproliferation norm through deliberate statecraft, like the 1968 Non-Proliferation Treaty. On the few occasions when Americans were asked if they wanted superhuman AI, large majorities said 'no'. Opposition to AI has grown as the technology has become more prevalent. When people argue that AGI is inevitable, what they're really saying is that the popular will shouldn't matter. The boosters see the masses as provincial neo-Luddites who don't know what's good for them. That's why inevitability holds such rhetorical allure for them; it lets them avoid making their real argument, which they know is a loser in the court of public opinion. The draw of AGI is strong. But the risks involved are potentially civilization-ending. A civilization-scale effort is needed to compel the necessary powers to resist it. Technology happens because people make it happen. We can choose otherwise. Garrison Lovely is a freelance journalist
India.com
04-05-2025
- Science
- India.com
Who built world's first atomic bomb; used to read Bhagavad Gita; his family had to flee Germany due to Hitler's fear, name is...
World's first atomic bomb: J. Robert Oppenheimer was born in New York in 1904. He was the son of first-generation Jewish immigrants who came to America from Germany. By the age of 9, he had read literature and philosophy in Greek and Latin. He would send letters related to his research to the prestigious Mineralogy Club. Born in New York City, Oppenheimer graduated in Chemistry from Harvard University in 1925 and then earned a doctorate in Physics from the University of Göttingen in Germany. Oppenheimer's reputation in quantum physics and quantum mechanics resounded throughout the world. Katherine chose Oppenheimer as her partner and also assisted him in the research related to the first atomic weapon of the Manhattan Project. At one point, feeling unsuccessful in achieving something significant, Oppenheimer even contemplated taking his own life. During the Second World War, when there was a race to create atomic bombs in Germany, Russia, and America, the search for a director for the Manhattan Project intensified. The great physicist Einstein was also in favour of Oppenheimer. When General Groves of the U.S. Army proposed Oppenheimer's name, there was an uproar. His leftist thinking was cited as an example. Oppenheimer's appointment is mentioned in the 1988 book 'The Making of the Atomic Bomb'. Robert Oppenheimer, the father of the atomic bomb, was appointed as the director of the Los Alamos Lab under the Manhattan Project by the then American President during World War II and given the responsibility for the development of the atomic bomb. After three years of hard work, July 16, 1945, was the day when the first atomic bomb was tested. It was named Trinity. July 16, 1945, was doomsday for Robert Oppenheimer in the deserts of New Mexico. America's atomic test was codenamed Trinity. Oppenheimer was in a bunker with his colleagues, from where the world's first nuclear test was conducted 10 kilometers away. In August 1945, atomic bombs named Little Boy and Fat Man were dropped on the Japanese cities of Hiroshima and Nagasaki. Approximately 250,000 people were killed in total. Japan surrendered, and World War II came to an end. This devastation shook Oppenheimer. He described atomic weapons as destructive and a product of the devil. He told then American President Harry Truman that he held himself responsible for this massacre. In the biography of Oppenheimer, historians Kai Bird and Martin J. Sherwin wrote that when the atom bomb with the intensity of 21 kilotons of TNT exploded, the shock of the earthquake was felt up to 160 kilometers away. Robert Oppenheimer recited a verse from the Bhagavad Gita: 'Kaal: Asmi Lokakshhayakritpraviddho Lokansamaahartumih pravrittah,' meaning 'I am now death, the destroyer of worlds.' Oppenheimer strongly opposed the creation of the hydrogen bomb after the atomic bomb. An investigation was set up against him, and his security clearance was revoked. However, the American government acknowledged its mistake in 1963 and honoured him with the Enrico Fermi Award.
