Podcasts about kyoto prize

Metamaterials are special structures made of tiny components that give them unique electromagnetic properties not found in nature. One key feature is a negative refractive index, which enables technologies like "superlenses" for ultra-detailed imaging and "invisibility cloaks." The concept began when Sir John Pendry theorized special rings (SRRs) that could manipulate electromagnetic waves. Later, Sheldon Schultz and David Smith proved this idea with real experiments. Since then, research on metamaterials has rapidly expanded, covering everything from microwaves to visible light. In this talk, Professors Pendry and Smith will share their experiences and discuss how metamaterials have shaped science and technology over the past 25 years. Series: "Kyoto Prize Symposium" [Science] [Show ID: 40534]

Metamaterials are special structures made of tiny components that give them unique electromagnetic properties not found in nature. One key feature is a negative refractive index, which enables technologies like "superlenses" for ultra-detailed imaging and "invisibility cloaks." The concept began when Sir John Pendry theorized special rings (SRRs) that could manipulate electromagnetic waves. Later, Sheldon Schultz and David Smith proved this idea with real experiments. Since then, research on metamaterials has rapidly expanded, covering everything from microwaves to visible light. In this talk, Professors Pendry and Smith will share their experiences and discuss how metamaterials have shaped science and technology over the past 25 years. Series: "Kyoto Prize Symposium" [Science] [Show ID: 40534]

Metamaterials are special structures made of tiny components that give them unique electromagnetic properties not found in nature. One key feature is a negative refractive index, which enables technologies like "superlenses" for ultra-detailed imaging and "invisibility cloaks." The concept began when Sir John Pendry theorized special rings (SRRs) that could manipulate electromagnetic waves. Later, Sheldon Schultz and David Smith proved this idea with real experiments. Since then, research on metamaterials has rapidly expanded, covering everything from microwaves to visible light. In this talk, Professors Pendry and Smith will share their experiences and discuss how metamaterials have shaped science and technology over the past 25 years. Series: "Kyoto Prize Symposium" [Science] [Show ID: 40534]

Metamaterials are special structures made of tiny components that give them unique electromagnetic properties not found in nature. One key feature is a negative refractive index, which enables technologies like "superlenses" for ultra-detailed imaging and "invisibility cloaks." The concept began when Sir John Pendry theorized special rings (SRRs) that could manipulate electromagnetic waves. Later, Sheldon Schultz and David Smith proved this idea with real experiments. Since then, research on metamaterials has rapidly expanded, covering everything from microwaves to visible light. In this talk, Professors Pendry and Smith will share their experiences and discuss how metamaterials have shaped science and technology over the past 25 years. Series: "Kyoto Prize Symposium" [Science] [Show ID: 40534]

Metamaterials are special structures made of tiny components that give them unique electromagnetic properties not found in nature. One key feature is a negative refractive index, which enables technologies like "superlenses" for ultra-detailed imaging and "invisibility cloaks." The concept began when Sir John Pendry theorized special rings (SRRs) that could manipulate electromagnetic waves. Later, Sheldon Schultz and David Smith proved this idea with real experiments. Since then, research on metamaterials has rapidly expanded, covering everything from microwaves to visible light. In this talk, Professors Pendry and Smith will share their experiences and discuss how metamaterials have shaped science and technology over the past 25 years. Series: "Kyoto Prize Symposium" [Science] [Show ID: 40534]

Metamaterials are special structures made of tiny components that give them unique electromagnetic properties not found in nature. One key feature is a negative refractive index, which enables technologies like "superlenses" for ultra-detailed imaging and "invisibility cloaks." The concept began when Sir John Pendry theorized special rings (SRRs) that could manipulate electromagnetic waves. Later, Sheldon Schultz and David Smith proved this idea with real experiments. Since then, research on metamaterials has rapidly expanded, covering everything from microwaves to visible light. In this talk, Professors Pendry and Smith will share their experiences and discuss how metamaterials have shaped science and technology over the past 25 years. Series: "Kyoto Prize Symposium" [Science] [Show ID: 40534]

Paul Hoffman is the 2024 Kyoto Prize Laureate in Basic Sciences. He is an adjunct professor at the University of Victoria, has conducted groundbreaking research in the “Snowball Earth” (global freezing) hypothesis and plate tectonics occurring in the first half of the Earth's 4.6-billion-year history. After earning his doctorate from Johns Hopkins University, Hoffman served the Geological Survey of his native Canada for 24 years followed by teaching at Harvard University and conducting related research in Sub-Saharan Africa. He has geologically demonstrated the occurrence of the postulated global freeze, so-called “Snowball Earth,” which drove the rapid diversification of animals in the Cambrian period approximately 520 million years ago. Series: "Kyoto Prize Symposium" [Science] [Show ID: 39991]

Paul Hoffman is the 2024 Kyoto Prize Laureate in Basic Sciences. He is an adjunct professor at the University of Victoria, has conducted groundbreaking research in the “Snowball Earth” (global freezing) hypothesis and plate tectonics occurring in the first half of the Earth's 4.6-billion-year history. After earning his doctorate from Johns Hopkins University, Hoffman served the Geological Survey of his native Canada for 24 years followed by teaching at Harvard University and conducting related research in Sub-Saharan Africa. He has geologically demonstrated the occurrence of the postulated global freeze, so-called “Snowball Earth,” which drove the rapid diversification of animals in the Cambrian period approximately 520 million years ago. Series: "Kyoto Prize Symposium" [Science] [Show ID: 39991]

Paul Hoffman is the 2024 Kyoto Prize Laureate in Basic Sciences. He is an adjunct professor at the University of Victoria, has conducted groundbreaking research in the “Snowball Earth” (global freezing) hypothesis and plate tectonics occurring in the first half of the Earth's 4.6-billion-year history. After earning his doctorate from Johns Hopkins University, Hoffman served the Geological Survey of his native Canada for 24 years followed by teaching at Harvard University and conducting related research in Sub-Saharan Africa. He has geologically demonstrated the occurrence of the postulated global freeze, so-called “Snowball Earth,” which drove the rapid diversification of animals in the Cambrian period approximately 520 million years ago. Series: "Kyoto Prize Symposium" [Science] [Show ID: 39991]

Paul Hoffman is the 2024 Kyoto Prize Laureate in Basic Sciences. He is an adjunct professor at the University of Victoria, has conducted groundbreaking research in the “Snowball Earth” (global freezing) hypothesis and plate tectonics occurring in the first half of the Earth's 4.6-billion-year history. After earning his doctorate from Johns Hopkins University, Hoffman served the Geological Survey of his native Canada for 24 years followed by teaching at Harvard University and conducting related research in Sub-Saharan Africa. He has geologically demonstrated the occurrence of the postulated global freeze, so-called “Snowball Earth,” which drove the rapid diversification of animals in the Cambrian period approximately 520 million years ago. Series: "Kyoto Prize Symposium" [Science] [Show ID: 39991]

William Forsythe is the 2024 Kyoto Prize Laureate in Arts and Philosophy. He is a choreographer whose work has extended ballet to a dynamic contemporary art form. In 1984, he began a 20-year tenure as director of Ballet Frankfurt. After the closure of the Ballet Frankfurt in 2004, Forsythe established a new, more independent ensemble, The Forsythe Company, which he directed from 2005 to 2015. Between 2015 and 2021 he served on the University of Southern California's faculty, where he helped establish the Glorya Kaufman School of Dance. Forsythe has broken the boundaries of conventional ballet style, challenging traditional artistic frameworks and developing improvisation techniques. His projects include installations and films presented in numerous museums, as well as dance documentation and education. Series: "Kyoto Prize Symposium" [Arts and Music] [Show ID: 39992]

William Forsythe is the 2024 Kyoto Prize Laureate in Arts and Philosophy. He is a choreographer whose work has extended ballet to a dynamic contemporary art form. In 1984, he began a 20-year tenure as director of Ballet Frankfurt. After the closure of the Ballet Frankfurt in 2004, Forsythe established a new, more independent ensemble, The Forsythe Company, which he directed from 2005 to 2015. Between 2015 and 2021 he served on the University of Southern California's faculty, where he helped establish the Glorya Kaufman School of Dance. Forsythe has broken the boundaries of conventional ballet style, challenging traditional artistic frameworks and developing improvisation techniques. His projects include installations and films presented in numerous museums, as well as dance documentation and education. Series: "Kyoto Prize Symposium" [Arts and Music] [Show ID: 39992]

William Forsythe is the 2024 Kyoto Prize Laureate in Arts and Philosophy. He is a choreographer whose work has extended ballet to a dynamic contemporary art form. In 1984, he began a 20-year tenure as director of Ballet Frankfurt. After the closure of the Ballet Frankfurt in 2004, Forsythe established a new, more independent ensemble, The Forsythe Company, which he directed from 2005 to 2015. Between 2015 and 2021 he served on the University of Southern California's faculty, where he helped establish the Glorya Kaufman School of Dance. Forsythe has broken the boundaries of conventional ballet style, challenging traditional artistic frameworks and developing improvisation techniques. His projects include installations and films presented in numerous museums, as well as dance documentation and education. Series: "Kyoto Prize Symposium" [Arts and Music] [Show ID: 39992]

Sir John Pendry is the 2024 Kyoto Prize Laureate in Advanced Technology. He serves as a professor of Theoretical Solid State Physics at Imperial College London. After earning his Ph.D. at University of Cambridge, Pendry's initial research concerned a low-energy electron diffraction theory for examining and measuring the surface of materials for practical purposes. He theoretically demonstrated that materials with electromagnetic properties not found in nature, such as negative-refractive-index materials (metamaterials), can be created by designing microstructures smaller than the wavelength of the target electromagnetic waves. This groundwork helped create innovative materials such as “superlenses” with subwavelength resolution and “invisibility cloaks.” Series: "Kyoto Prize Symposium" [Science] [Show ID: 39990]

Sir John Pendry is the 2024 Kyoto Prize Laureate in Advanced Technology. He serves as a professor of Theoretical Solid State Physics at Imperial College London. After earning his Ph.D. at University of Cambridge, Pendry's initial research concerned a low-energy electron diffraction theory for examining and measuring the surface of materials for practical purposes. He theoretically demonstrated that materials with electromagnetic properties not found in nature, such as negative-refractive-index materials (metamaterials), can be created by designing microstructures smaller than the wavelength of the target electromagnetic waves. This groundwork helped create innovative materials such as “superlenses” with subwavelength resolution and “invisibility cloaks.” Series: "Kyoto Prize Symposium" [Science] [Show ID: 39990]

Sir John Pendry is the 2024 Kyoto Prize Laureate in Advanced Technology. He serves as a professor of Theoretical Solid State Physics at Imperial College London. After earning his Ph.D. at University of Cambridge, Pendry's initial research concerned a low-energy electron diffraction theory for examining and measuring the surface of materials for practical purposes. He theoretically demonstrated that materials with electromagnetic properties not found in nature, such as negative-refractive-index materials (metamaterials), can be created by designing microstructures smaller than the wavelength of the target electromagnetic waves. This groundwork helped create innovative materials such as “superlenses” with subwavelength resolution and “invisibility cloaks.” Series: "Kyoto Prize Symposium" [Science] [Show ID: 39990]

Sir John Pendry is the 2024 Kyoto Prize Laureate in Advanced Technology. He serves as a professor of Theoretical Solid State Physics at Imperial College London. After earning his Ph.D. at University of Cambridge, Pendry's initial research concerned a low-energy electron diffraction theory for examining and measuring the surface of materials for practical purposes. He theoretically demonstrated that materials with electromagnetic properties not found in nature, such as negative-refractive-index materials (metamaterials), can be created by designing microstructures smaller than the wavelength of the target electromagnetic waves. This groundwork helped create innovative materials such as “superlenses” with subwavelength resolution and “invisibility cloaks.” Series: "Kyoto Prize Symposium" [Science] [Show ID: 39990]

Sir John Pendry is the 2024 Kyoto Prize Laureate in Advanced Technology. He serves as a professor of Theoretical Solid State Physics at Imperial College London. After earning his Ph.D. at University of Cambridge, Pendry's initial research concerned a low-energy electron diffraction theory for examining and measuring the surface of materials for practical purposes. He theoretically demonstrated that materials with electromagnetic properties not found in nature, such as negative-refractive-index materials (metamaterials), can be created by designing microstructures smaller than the wavelength of the target electromagnetic waves. This groundwork helped create innovative materials such as “superlenses” with subwavelength resolution and “invisibility cloaks.” Series: "Kyoto Prize Symposium" [Science] [Show ID: 39990]

Sir John Pendry is the 2024 Kyoto Prize Laureate in Advanced Technology. He serves as a professor of Theoretical Solid State Physics at Imperial College London. After earning his Ph.D. at University of Cambridge, Pendry's initial research concerned a low-energy electron diffraction theory for examining and measuring the surface of materials for practical purposes. He theoretically demonstrated that materials with electromagnetic properties not found in nature, such as negative-refractive-index materials (metamaterials), can be created by designing microstructures smaller than the wavelength of the target electromagnetic waves. This groundwork helped create innovative materials such as “superlenses” with subwavelength resolution and “invisibility cloaks.” Series: "Kyoto Prize Symposium" [Science] [Show ID: 39990]

This episode is the first of a series of presentations from an International Symposium on “Spiritual Yearning in a Disenchanted Age” held at McGill University in Montreal in November 2024.In this first episode, Dr. Charles Taylor, Professor Emeritus of Philosophy at McGill University, shares the motivations and long history behind his new book Cosmic Connections: Poetry in the Age of Disenchantment.Prof. Taylor is internationally recognized for his pioneering work in political philosophy, social theory, and intellectual history. Over the years, he has received numerous prestigious honors, such as the Kyoto Prize, the Templeton Prize, the Berggruen Prize for Philosophy, and the John W. Kluge Prize. In 2007, together with Gérard Bouchard, he co-led the Bouchard–Taylor Commission, which examined how to accommodate cultural differences in Quebec. Taylor has authored or edited more than thirty books, including Sources of the Self and A Secular Age. In this episode, Prof. Taylor talks about:The origins of humanity's deeper spiritual searchWhy poetry re-enchanting a disenchanted worldHow the study of comparative religion shaped his own spiritual lifeCosmic longing explored across diverse culturesBeauty unites communities in transformative experiencesHow a secular age can spark religious rediscoveriesTo learn more about Dr. Charles Taylor's work, you can visithttps://en.wikipedia.org/wiki/Charles_Taylor_(philosopher)Cosmic Connections: https://www.hup.harvard.edu/books/9780674296084Follow us on social media for more updates:X: https://x.com/brvnathanInstagram: https://www.instagram.com/brvnathan/This episode is sponsored by:John Templeton Foundation (https://www.templeton.org/)Templeton Religion Trust (https://templetonreligiontrust.org/)Support us on Patreon:https://www.patreon.com/BeautyatWorkPodcast#beauty #beautyatwork #podcast #symposium #science #connection #spiritual #CharlesTaylorSupport the show

“What optogenetics does is it's an engine of discovery. It helps us identify what matters, what's causing things to happen in the brain. And we know now the cells and the connections make these powerful motivations and drives manifest. That opens the door to any kind of new treatment, right? If you know the cells, then you can look at the DNA and the RNA in those cells. You can see what proteins those cells are making, and that gives you clues for medication targets. You can say, okay, this cell has these proteins on its surface, that would give us an idea for a pill, for a medication that might act specifically on that cell that now we know for the first time is causal. It's not just correlated with, it's actually causing these symptoms or the resolution of these symptoms. And if we can now design a medication that targets that cell, we might have a treatment.” So says Karl Deisseroth, a psychiatrist, neuroscientist and bioengineering professor at Stanford. Karl is also the author of Projections: The New Science of Human Emotion, which is a beautiful revisitation and exploration of his time as a psychiatry resident, where he encountered all sorts of people who didn't quite understand what was happening to their brains—and by extension their minds. In the book—and in our conversation today—Karl explores mania, autism spectrum disorder, eating disorders, borderline personality disorder, psychopathy, and dementia, all in gorgeous prose. Karl runs a lab at Stanford that focuses on optogenetics, mind-blowing science that can pinpoint where adaptive and maladaptive behaviors begin in the brain. He's won the Kyoto Prize and Heineken Prize for his research, which is not surprising—it just might change the entire world of psychiatry. Today's conversation is far-ranging and it's also surprising, including a conversation about how some of these disorders—like eating disorders, which can be deadly, can also be strangely adaptive. Please stick with us.  MORE FROM KARL DEISSEROTH, M.D., PhD: Projections: The New Science of Human Emotion Follow Karl Deisseroth on Twitter To learn more about listener data and our privacy practices visit: https://www.audacyinc.com/privacy-policy Learn more about your ad choices. Visit https://podcastchoices.com/adchoices

Dr. Robert S. Langer is the David H. Koch Institute Professor at the Massachusetts Institute of Technology (MIT). Being one of the eight Institute Professors is the highest honor that can be awarded to a faculty member at MIT. Much of Bob's research is at the interface between materials and medicine. His lab has created nanoparticles and drug delivery systems, engineered tissues and organs for things like artificial skin for burn victims, and made organ-on-a-chip technology to help develop and test new drugs that may someday help patients. When he's not working, Bob enjoys spending time with his family, taking his kids to sporting events, lifting weights, and going on walks with his wife. He received his bachelor's degree in chemical engineering from Cornell University and his Sc.D. in chemical engineering from Massachusetts Institute of Technology. Afterwards, Bob worked as a postdoctoral fellow at the Children's Hospital Boston and at Harvard Medical School. He joined the faculty at MIT in 1978. Since then, Bob has accepted more than 220 major awards and honors, including the U.S. National Medal of Science, the U.S. National Medal of Technology and Innovation (he is one of 3 living individuals to have received both these honors), the Charles Stark Draper Prize (often called the Engineering Nobel Prize), Queen Elizabeth Prize for Engineering, Albany Medical Center Prize, Breakthrough Prize in Life Sciences, Kyoto Prize, Wolf Prize for Chemistry, Millennium Technology Prize, Priestley Medal (highest award of the American Chemical Society), Gairdner Prize, Hoover Medal, Dreyfus Prize in Chemical Sciences, BBVA Frontiers of Knowledge Award in Biomedicine, Balzan Prize, and the Dr. Paul Janssen Award. In 1998, he received the Lemelson-MIT prize, the world's largest prize for invention for being “one of history's most prolific inventors in medicine,” and he was inducted into the National Inventors Hall of Fame in 2006. He is an elected Fellow of the Institute of Medicine of the National Academy of Sciences, the National Academy of Engineering, the National Academy of Sciences, and National Academy of Inventors, and the Royal Academy of Engineering. He has been awarded over 1,000 patents and has received 42 honorary doctorate degrees, including degrees from Harvard, Yale, Columbia, and Northwestern. In our conversation, he shares more about his life and science.

The 2023 Kyoto Prize Laureate in Basic Sciences, Professor Elliott Lieb presents snapshots of his seventy-year journey through the world of science, first as a would-be engineer, then as a physicist and later as a mathematician and a mathematical physicist. In many encounters with colleagues in different areas of research he learned that mathematics and a mathematical perspective can be pivotal in developing our thinking about physics. This fundamental connection between mathematics and physics was not always accepted at the beginning of my career, and it was even vigorously denied by some mathematicians and physicists. Lieb mentions some of his work to illustrate the value of mathematical physics for theoretical physics and to pure mathematics, the first being the Polaron bound found with K. Yamazaki in Kyoto in 1957. Another is the "ice problem", where he calculated the number of ways to color a chess board with only three colors so that neighboring squares never have the same color. Series: "Kyoto Prize Symposium" [Science] [Show ID: 39424]

The 2023 Kyoto Prize Laureate in Basic Sciences, Professor Elliott Lieb presents snapshots of his seventy-year journey through the world of science, first as a would-be engineer, then as a physicist and later as a mathematician and a mathematical physicist. In many encounters with colleagues in different areas of research he learned that mathematics and a mathematical perspective can be pivotal in developing our thinking about physics. This fundamental connection between mathematics and physics was not always accepted at the beginning of my career, and it was even vigorously denied by some mathematicians and physicists. Lieb mentions some of his work to illustrate the value of mathematical physics for theoretical physics and to pure mathematics, the first being the Polaron bound found with K. Yamazaki in Kyoto in 1957. Another is the "ice problem", where he calculated the number of ways to color a chess board with only three colors so that neighboring squares never have the same color. Series: "Kyoto Prize Symposium" [Science] [Show ID: 39424]

The 2023 Kyoto Prize Laureate in Basic Sciences, Professor Elliott Lieb presents snapshots of his seventy-year journey through the world of science, first as a would-be engineer, then as a physicist and later as a mathematician and a mathematical physicist. In many encounters with colleagues in different areas of research he learned that mathematics and a mathematical perspective can be pivotal in developing our thinking about physics. This fundamental connection between mathematics and physics was not always accepted at the beginning of my career, and it was even vigorously denied by some mathematicians and physicists. Lieb mentions some of his work to illustrate the value of mathematical physics for theoretical physics and to pure mathematics, the first being the Polaron bound found with K. Yamazaki in Kyoto in 1957. Another is the "ice problem", where he calculated the number of ways to color a chess board with only three colors so that neighboring squares never have the same color. Series: "Kyoto Prize Symposium" [Science] [Show ID: 39424]

The 2023 Kyoto Prize Laureate in Basic Sciences, Professor Elliott Lieb presents snapshots of his seventy-year journey through the world of science, first as a would-be engineer, then as a physicist and later as a mathematician and a mathematical physicist. In many encounters with colleagues in different areas of research he learned that mathematics and a mathematical perspective can be pivotal in developing our thinking about physics. This fundamental connection between mathematics and physics was not always accepted at the beginning of my career, and it was even vigorously denied by some mathematicians and physicists. Lieb mentions some of his work to illustrate the value of mathematical physics for theoretical physics and to pure mathematics, the first being the Polaron bound found with K. Yamazaki in Kyoto in 1957. Another is the "ice problem", where he calculated the number of ways to color a chess board with only three colors so that neighboring squares never have the same color. Series: "Kyoto Prize Symposium" [Science] [Show ID: 39424]

The 2023 Kyoto Prize Laureate in Basic Sciences, Professor Elliott Lieb presents snapshots of his seventy-year journey through the world of science, first as a would-be engineer, then as a physicist and later as a mathematician and a mathematical physicist. In many encounters with colleagues in different areas of research he learned that mathematics and a mathematical perspective can be pivotal in developing our thinking about physics. This fundamental connection between mathematics and physics was not always accepted at the beginning of my career, and it was even vigorously denied by some mathematicians and physicists. Lieb mentions some of his work to illustrate the value of mathematical physics for theoretical physics and to pure mathematics, the first being the Polaron bound found with K. Yamazaki in Kyoto in 1957. Another is the "ice problem", where he calculated the number of ways to color a chess board with only three colors so that neighboring squares never have the same color. Series: "Kyoto Prize Symposium" [Science] [Show ID: 39424]

The 2023 Kyoto Prize Laureate in Basic Sciences, Professor Elliott Lieb presents snapshots of his seventy-year journey through the world of science, first as a would-be engineer, then as a physicist and later as a mathematician and a mathematical physicist. In many encounters with colleagues in different areas of research he learned that mathematics and a mathematical perspective can be pivotal in developing our thinking about physics. This fundamental connection between mathematics and physics was not always accepted at the beginning of my career, and it was even vigorously denied by some mathematicians and physicists. Lieb mentions some of his work to illustrate the value of mathematical physics for theoretical physics and to pure mathematics, the first being the Polaron bound found with K. Yamazaki in Kyoto in 1957. Another is the "ice problem", where he calculated the number of ways to color a chess board with only three colors so that neighboring squares never have the same color. Series: "Kyoto Prize Symposium" [Science] [Show ID: 39424]

Nalini Malani is the 2023 Kyoto Prize Laureate in Arts and Philosophy. Using a variety of mediums including theater videos and mixed media installations, Malani is considered to be part of India's first generation of video artists. She is known for employing stop motion, erasure animations, reverse paintings and digital animations as tools for her craft. Her artwork is influenced by her family's experience of migration to the partition of India, but also showcases pressing feminist issues are part of her creativity. Malani's most recent installation, "My Reality is Different" uses the metaphor of the mythical figure of Cassandra who could foresee true prophecies but was never believed. This female side of the human psyche can open our eyes, and if therein the prognosis of the future is not suppressed, one can make sense of this life and steer it into a different, more humane direction, with the formulation of new civilizational values. Series: "Kyoto Prize Symposium" [Arts and Music] [Show ID: 39425]

Nalini Malani is the 2023 Kyoto Prize Laureate in Arts and Philosophy. Using a variety of mediums including theater videos and mixed media installations, Malani is considered to be part of India's first generation of video artists. She is known for employing stop motion, erasure animations, reverse paintings and digital animations as tools for her craft. Her artwork is influenced by her family's experience of migration to the partition of India, but also showcases pressing feminist issues are part of her creativity. Malani's most recent installation, "My Reality is Different" uses the metaphor of the mythical figure of Cassandra who could foresee true prophecies but was never believed. This female side of the human psyche can open our eyes, and if therein the prognosis of the future is not suppressed, one can make sense of this life and steer it into a different, more humane direction, with the formulation of new civilizational values. Series: "Kyoto Prize Symposium" [Humanities] [Arts and Music] [Show ID: 39425]

Nalini Malani is the 2023 Kyoto Prize Laureate in Arts and Philosophy. Using a variety of mediums including theater videos and mixed media installations, Malani is considered to be part of India's first generation of video artists. She is known for employing stop motion, erasure animations, reverse paintings and digital animations as tools for her craft. Her artwork is influenced by her family's experience of migration to the partition of India, but also showcases pressing feminist issues are part of her creativity. Malani's most recent installation, "My Reality is Different" uses the metaphor of the mythical figure of Cassandra who could foresee true prophecies but was never believed. This female side of the human psyche can open our eyes, and if therein the prognosis of the future is not suppressed, one can make sense of this life and steer it into a different, more humane direction, with the formulation of new civilizational values. Series: "Kyoto Prize Symposium" [Arts and Music] [Show ID: 39425]

Nalini Malani is the 2023 Kyoto Prize Laureate in Arts and Philosophy. Using a variety of mediums including theater videos and mixed media installations, Malani is considered to be part of India's first generation of video artists. She is known for employing stop motion, erasure animations, reverse paintings and digital animations as tools for her craft. Her artwork is influenced by her family's experience of migration to the partition of India, but also showcases pressing feminist issues are part of her creativity. Malani's most recent installation, "My Reality is Different" uses the metaphor of the mythical figure of Cassandra who could foresee true prophecies but was never believed. This female side of the human psyche can open our eyes, and if therein the prognosis of the future is not suppressed, one can make sense of this life and steer it into a different, more humane direction, with the formulation of new civilizational values. Series: "Kyoto Prize Symposium" [Arts and Music] [Show ID: 39425]

Born and raised in Hokkaido, Japan, Professor Ryuzo Yanagimachi, the 2023 Kyoto Prize Laureate in Basic Sciences, developed a love for nature. He became fascinated with the fertilization process of sea urchins. After studying the fertilization of fish and the life cycle of parasitic barnacles, he realized little was known about mammalian fertilization. He went on to train with Professor M.C. Chang at the Worcester Foundation for Experimental Biology, the father of mammalian in vitro fertilization and then started his own lab at the University of Hawai'i. His basic studies contributed to understanding the hidden capacity of sperm and eggs and overcoming human fertility problems. Professor Yanagimachi passed away in 2023 at the age of 95, just a few months before he was to receive his Kyoto Prize award. Dr. W. Steven Ward, Director of the Institute for Biogenesis Research at the University of Hawai'i will present Prof. Yanagimachi's life and work. Series: "Kyoto Prize Symposium" [Health and Medicine] [Science] [Show ID: 39423]

Born and raised in Hokkaido, Japan, Professor Ryuzo Yanagimachi, the 2023 Kyoto Prize Laureate in Basic Sciences, developed a love for nature. He became fascinated with the fertilization process of sea urchins. After studying the fertilization of fish and the life cycle of parasitic barnacles, he realized little was known about mammalian fertilization. He went on to train with Professor M.C. Chang at the Worcester Foundation for Experimental Biology, the father of mammalian in vitro fertilization and then started his own lab at the University of Hawai'i. His basic studies contributed to understanding the hidden capacity of sperm and eggs and overcoming human fertility problems. Professor Yanagimachi passed away in 2023 at the age of 95, just a few months before he was to receive his Kyoto Prize award. Dr. W. Steven Ward, Director of the Institute for Biogenesis Research at the University of Hawai'i will present Prof. Yanagimachi's life and work. Series: "Kyoto Prize Symposium" [Health and Medicine] [Science] [Show ID: 39423]

Born and raised in Hokkaido, Japan, Professor Ryuzo Yanagimachi, the 2023 Kyoto Prize Laureate in Basic Sciences, developed a love for nature. He became fascinated with the fertilization process of sea urchins. After studying the fertilization of fish and the life cycle of parasitic barnacles, he realized little was known about mammalian fertilization. He went on to train with Professor M.C. Chang at the Worcester Foundation for Experimental Biology, the father of mammalian in vitro fertilization and then started his own lab at the University of Hawai'i. His basic studies contributed to understanding the hidden capacity of sperm and eggs and overcoming human fertility problems. Professor Yanagimachi passed away in 2023 at the age of 95, just a few months before he was to receive his Kyoto Prize award. Dr. W. Steven Ward, Director of the Institute for Biogenesis Research at the University of Hawai'i will present Prof. Yanagimachi's life and work. Series: "Kyoto Prize Symposium" [Health and Medicine] [Science] [Show ID: 39423]

Born and raised in Hokkaido, Japan, Professor Ryuzo Yanagimachi, the 2023 Kyoto Prize Laureate in Basic Sciences, developed a love for nature. He became fascinated with the fertilization process of sea urchins. After studying the fertilization of fish and the life cycle of parasitic barnacles, he realized little was known about mammalian fertilization. He went on to train with Professor M.C. Chang at the Worcester Foundation for Experimental Biology, the father of mammalian in vitro fertilization and then started his own lab at the University of Hawai'i. His basic studies contributed to understanding the hidden capacity of sperm and eggs and overcoming human fertility problems. Professor Yanagimachi passed away in 2023 at the age of 95, just a few months before he was to receive his Kyoto Prize award. Dr. W. Steven Ward, Director of the Institute for Biogenesis Research at the University of Hawai'i will present Prof. Yanagimachi's life and work. Series: "Kyoto Prize Symposium" [Health and Medicine] [Science] [Show ID: 39423]

Born and raised in Hokkaido, Japan, Professor Ryuzo Yanagimachi, the 2023 Kyoto Prize Laureate in Basic Sciences, developed a love for nature. He became fascinated with the fertilization process of sea urchins. After studying the fertilization of fish and the life cycle of parasitic barnacles, he realized little was known about mammalian fertilization. He went on to train with Professor M.C. Chang at the Worcester Foundation for Experimental Biology, the father of mammalian in vitro fertilization and then started his own lab at the University of Hawai'i. His basic studies contributed to understanding the hidden capacity of sperm and eggs and overcoming human fertility problems. Professor Yanagimachi passed away in 2023 at the age of 95, just a few months before he was to receive his Kyoto Prize award. Dr. W. Steven Ward, Director of the Institute for Biogenesis Research at the University of Hawai'i will present Prof. Yanagimachi's life and work. Series: "Kyoto Prize Symposium" [Health and Medicine] [Science] [Show ID: 39423]

Born and raised in Hokkaido, Japan, Professor Ryuzo Yanagimachi, the 2023 Kyoto Prize Laureate in Basic Sciences, developed a love for nature. He became fascinated with the fertilization process of sea urchins. After studying the fertilization of fish and the life cycle of parasitic barnacles, he realized little was known about mammalian fertilization. He went on to train with Professor M.C. Chang at the Worcester Foundation for Experimental Biology, the father of mammalian in vitro fertilization and then started his own lab at the University of Hawai'i. His basic studies contributed to understanding the hidden capacity of sperm and eggs and overcoming human fertility problems. Professor Yanagimachi passed away in 2023 at the age of 95, just a few months before he was to receive his Kyoto Prize award. Dr. W. Steven Ward, Director of the Institute for Biogenesis Research at the University of Hawai'i will present Prof. Yanagimachi's life and work. Series: "Kyoto Prize Symposium" [Health and Medicine] [Science] [Show ID: 39423]

Why is a multi-disciplinary approach key to addressing biodiversity loss? Listen to Jason Mitchell discuss with Professor Simon Levin, Princeton University, about what's at stake in the effort to preserve biodiversity loss; how his work has expanded into the sociological, political economy and policy space; and why a common language — a grammar for economic reasoning — is vital for bringing together different disciplines to understand nature. Professor Simon Levin is the James S. McDonnell Distinguished University Professor in Ecology and Evolutionary Biology at Princeton University and the Director of the Center for BioComplexity in the High Meadows Environmental Institute. His research examines the structure and functioning of ecosystems, the dynamics of disease, and the coupling of ecological and socioeconomic systems. Simon is a Fellow of the American Academy of Arts and Sciences and the American Association for the Advancement of Science, a Member of the National Academy of Sciences and the American Philosophical Society, and a Foreign Member of the Istituto Veneto di Scienze, Lettere ed Arti, and the Istituto Lombardo. He has over 500 publications and is the editor of the Encyclopedia of Biodiversity and the Princeton Guide to Ecology. Simon's awards include: the Heineken Prize for Environmental Sciences, Kyoto Prize in Basic Sciences, the Ecological Society of America's MacArthur and Eminent Ecologist Awards, the Tyler Prize for Environmental Achievement, and the National Medal of Science.

This week on Cultural Manifesto listen to an interview with tabla virtuoso Zakir Hussain - an icon of Indian classical music. Hussain will share his thoughts on the use of AI in music, winning the Kyoto Prize, and his work with the late Tina Turner. Also, hear a conversation with Judith Thomas, Deputy Mayor of Neighborhood Engagement City of Indianapolis. Thomas is a passionate advocate for arts and culture in Indianapolis and a lifelong jazz fan. She'll discuss the role of music and art in her work and share some of her favorite Indianapolis jazz recordings.

This week on Cultural Manifesto listen to an interview with tabla virtuoso Zakir Hussain - an icon of Indian classical music. Hussain will share his thoughts on the use of AI in music, winning the Kyoto Prize, and his work with the late Tina Turner. Also, hear a conversation with Judith Thomas, Deputy Mayor of Neighborhood Engagement City of Indianapolis. Thomas is a passionate advocate for arts and culture in Indianapolis and a lifelong jazz fan. She'll discuss the role of music and art in her work and share some of her favorite Indianapolis jazz recordings.

Whaling, poaching, factory farming: we know they're wrong. Yet, most of us do nothing about them. In fact, for each trip around the sun, we satisfy our collective tastebuds with over seventy billion land animals and seven trillion sea creatures. Still, one might ask, what is it that's wrong with how we treat our fellow creatures? This is the central question of Martha Nussbaum's latest book, Justice for Animals: Our Collective Responsibility. Nussbaum, who has won the most prestigious prizes in the field – including the 2016 Kyoto Prize in Arts and Philosophy, the 2018 Berggruen (Bergruin) Prize in Philosophy and Culture, and the 2021 Holberg Prize – is currently the Ernst Freund (Froind) Distinguished Service Professor of Law and Ethics at the University of Chicago. With over twenty-five books, five hundred academic papers, and fifty-five honorary degrees, it's safe to say that Martha Nussbaum is one of the most prolific and distinguished philosophers of our time. For Nussbaum, humans have a collective responsibility to support the activities and conditions that allow our fellow creatures to flourish. It's time we put a stop to the injustice and bring about a better world. Her call to action? Justice for Animals.

Whaling, poaching, factory farming: we know they're wrong. Yet, most of us do nothing about them. In fact, for each trip around the sun, we satisfy our collective tastebuds with over seventy billion land animals and seven trillion sea creatures. Still, one might ask, what is it that's wrong with how we treat our fellow creatures? This is the central question of Martha Nussbaum's latest book, Justice for Animals: Our Collective Responsibility. Nussbaum, who has won the most prestigious prizes in the field – including the 2016 Kyoto Prize in Arts and Philosophy, the 2018 Berggruen (Bergruin) Prize in Philosophy and Culture, and the 2021 Holberg Prize – is currently the Ernst Freund (Froind) Distinguished Service Professor of Law and Ethics at the University of Chicago. With over twenty-five books, five hundred academic papers, and fifty-five honorary degrees, it's safe to say that Martha Nussbaum is one of the most prolific and distinguished philosophers of our time. For Nussbaum, humans have a collective responsibility to support the activities and conditions that allow our fellow creatures to flourish. It's time we put a stop to the injustice and bring about a better world. Her call to action? Justice for Animals. Contents Part I. The Capabilities Approach Part II. Further Analysis and Discussion Links Martha Nussbaum, Website. Martha Nussbaum, Justice for Animals: Our Collective Responsibility (2023) Peter Singer, Animal Liberation Now (2023)

This episode is brought to you by Rupa Health, Kettle & Fire, LMNT, and Cozy Earth.Recent technological advances are completely changing the way we understand the body. Revolutions are happening on multiple levels–the “omics” revolution, the digitization of data, and the systems biology medicine movement. Today, I'm excited to talk to Drs. Leroy Hood and Nathan Price about the future of personalized healthcare through scientific wellness.Dr. Leroy Hood is the CEO and founder of Phenome Health, a non-profit organization developing a project called Human Phenome Initiative (HPI), based on the science of wellness, which will sequence the genes and generate the longitudinal phenomes of one million people over 10 years. He has co-founded 17 biotech companies. His many national and international awards include the Lasker Prize, the Kyoto Prize, and the National Medal of Science. He is also the Chief Strategy Officer/Professor at the Institute of Systems Biology in Seattle.Dr. Nathan Price is the Chief Scientific Officer of Thorne HealthTech and author of The Age of Scientific Wellness. In 2019, he was named one of the 10 Emerging Leaders in Health and Medicine by the National Academy of Medicine, and in 2021 he was appointed to the Board on Life Sciences of the National Academies of Sciences, Engineering, and Medicine. He is Affiliate Faculty at the University of Washington in Bioengineering and Computer Science and Engineering. This episode is brought to you by Rupa Health, Kettle & Fire, LMNT, and Cozy Earth.Access more than 3,000 specialty lab tests with Rupa Health. Check out a free, live demo with a Q&A or create an account at RupaHealth.com.Head over to kettleandfire.com/Hyman today to see all of their products and use code HYMAN to save 20% off your entire order.LMNT is offering my listeners a free sample pack with any purchase at DrinkLMNT.com/hyman.Get 40% off your Cozy Earth sheets at cozyearth.com and use code DRHYMAN.Here are more details from our interview (audio version / Apple Subscriber version):Systems biology and scientific wellness (5:41 / 4:25) Three components of the human phenome (20:07 / 18:30) How big-data analytics and AI can be used to optimize health (24:30 / 22:30)The majority of health and wellness happens outside the doctor's office (41:28 / 37:47)Educating the public about the future of medicine (43:23 / 39:21) Training AI machine learning models (52:47 / 49:11)Drs. Hood and Price's daily health routines (1:13:49 / 1:10:12) Get a copy of The Age of Scientific Wellness: Why the Future of Medicine Is Personalized, Predictive, Data-Rich, and in Your Hands. Hosted on Acast. See acast.com/privacy for more information.

Leroy Hood, MD, developed the DNA sequencing technology that made possible the Human Genome Project and is cofounder of the Institute for Systems Biology. A pioneer in the fields of systems biology, proteomics, and P4 medicine, he has won the Kyoto Prize, the Lasker Award, the Heinz Award, and the National Medal of Science. He is in all three national academies of science: medicine, engineering and science and falls among 20 who share this honor out of more that 6000 members of these academies. Nathan Price is Chief Science Officer of Thorne HealthTech, helping to architect a scientific wellness company serving millions of people. A longtime professor at the Institute for Systems Biology, he was selected as an Emerging Leader in Health and Medicine by the National Academy of Medicine, receiving the Grace A. Goldsmith Award for his work on scientific wellness and has co-authored over 200 peer-reviewed scientific publications.Topics covered in this episode:Disease PreventionDisease TreatmentAI in HealthcareEthical AIMedical ErrorsP Four MedicineParticipatory In Your HealthcareEducational EffortsDigital TwinDiabetesHealth SpansEconomy of HealthcareBlood AnalysisImmediate ActionsExerciseMicrobiomeReferenced in the episode:The Lindsey Elmore Show Ep 137 | Understanding cognitive decline | Dr. Rana MafeeTo learn more about Leroy Hood and Nathan Price and their work, head over to https://isbscience.org/bio/nathan-price/__________________________________________________________If you haven't been feeling like your best self, maybe you've been struggling with your metabolism and weight loss, or are just not in a good mood and are stressed out all the time, maybe your sex life isn't what it once was. Enter the Amare Happy Hormones Pack.If you wanna get going and try the Happy Hormones pack head to  http://www.learnamare.com/hormones between now and the end of July, when you shop the Happy Hormones Pack, you will also receive a free bottle of Omegas. Don't worry. If you're listening to this after the end of July, just go to http://www.lindseyelmore.com/amare to save $10 at any point.__________________________________________________________Wellness Made Simple is my functional medicine education website where you can learn the practical skills that you need to build a healthy lifestyle. If you want to live healthy, but you're over temporary diets and exercises, you don't know where to find reliable health information, you don't know what wellness options are even out there, and you definitely don't have enough time to cook or go to the gym every single day, Wellness Made Simple is for you.  When you go to http://www.wellnessmadesimple.us and shop the code "Pod", you can save 20% off a monthly subscription or $100 off an annual subscription to Get access to the site, watch the courses, and feel better as you implement simple daily changes that can positively transform your health!____________________________________________________________________________________________________________________We hope you enjoyed this episode. Come check us out at www.lindseyelmore.com/podcast.

Read the full transcript here. What is the capabilities approach to welfare? To what is this approach reacting? How should capabilities be balanced or traded off against each other? How do capabilities differ from needs? Are zoos unethical? Can plants be subject to injustice? What are our ethical obligations towards factory farms? How do our ethical obligations to domesticated animals and livestock differ from our ethical obligations to wild animals, if at all? Why is vulnerability important? Is inequality intrinsically bad, or is it only bad because of its effects?Martha C. Nussbaum is the Ernst Freund Distinguished Service Professor of Law and Ethics, appointed in the Philosophy Department and the Law School of the University of Chicago. She gave the 2016 Jefferson Lecture for the National Endowment for the Humanities and won the 2016 Kyoto Prize in Arts and Philosophy, the 2018 Berggruen Prize in Philosophy and Culture, and the 2020 Holberg Prize. These three prizes are regarded as the most prestigious awards available in fields not eligible for a Nobel. She has written more than twenty-two books, including Upheavals of Thought: The Intelligence of Emotions; Anger and Forgiveness: Resentment, Generosity, Justice; Not for Profit: Why Democracy Needs the Humanities; The Monarchy of Fear, and most recently Justice for Animals: Our Collective Responsibility. Learn more about her via her University of Chicago bio. [Read more]

Bryan T. Grenfell is a population biologist and professor of Ecology & Evolutionary Biology and Public Affairs at Princeton University. He proposed phylodynamics as a methodology to predict the infectious disease dynamics of RNA viruses by considering viral evolution, thus contributing to the development of research fields that integrate immune dynamics, epidemiology, and evolutionary biology. These achievements have been instrumental in understanding infection mechanisms of viruses such as COVID-19 and proposing effective infectious disease control policies. Awarded with the 2022 Kyoto Prize in Basic Sciences, Grenfell will discuss population biology and the evolution of infectious diseases in his lecture, "Epidemiological and Evolutionary Dynamics of Pathogens in Time and Space". Series: "Kyoto Prize Symposium" [Science] [Show ID: 38573]

Carver Mead is a pioneer of modern microelectronics. He proposed a new methodology, very large-scale integration (VLSI), that would make it possible for creating millions or billions of transistors on a single integrated circuit (microchip). His research investigated techniques for VLSI, designing and creating high-complexity microchips. This design process has advanced electronic technologies and transformed the lives of most of the people inhabiting our planet. Mead also paved the way to VLSI design automation and facilitating the revolutionary development of today's VLSI-based electronics and industry. For his work and contributions, Mead was awarded the 2022 Kyoto Prize in Advanced Technology. In his talk entitled, "Engineering Concepts Clarify Physical Law" Mead will discuss a simplified theory that might serve as an entry point for further development by generations of young people who feel disenfranchised by the existing establishment. Series: "Computer Science Channel" [Science] [Show ID: 38572]

Taking us to the cutting edge of the new frontier of medicine, a visionary biotechnologist and a pathbreaking researcher show how we can optimize our health in ways that were previously unimaginable. They say we are on the cusp of a major transformation in health care—yet few people know it. At top hospitals and a few innovative health-tech startups, scientists are working closely with patients to dramatically extend their "healthspan"—the number of healthy years before disease sets in.  Using information gleaned from our blood and genes and tapping into the data revolution made possible by AI, doctors can catch the onset of disease years before symptoms arise, revolutionizing prevention. Current applications have shown startling results: diabetes reversed, cancers eliminated, Alzheimer's avoided, autoimmune conditions kept at bay. This is not a future fantasy: it is already happening, but only for a few patients and at high cost. Proponents say it is time to make this gold standard of care more widely available.  MLF ORGANIZER Robert Lee Kilpatrick SPEAKERS Leroy Hood M.D., Ph.D., Founder and CEO, Phenome Health; Co-founder, The Institute for Systems Biology; Recipient, the Kyoto Prize, the Lasker Award, the Heinz Award, and the National Medal of Science Nathan Price Ph.D., Chief Science Officer, Thorne HealthTech; Professor, The Institute for Systems Biology; Recipient, Grace A. Goldsmith Award  Robert Lee Kilpatrick Ph.D., Chief Strategic Development Officer, Phenome Health; Visiting Academic, Oxford Martin School Research Institute, University of Oxford; Chair, Health & Medicine Member-led Forum, The Commonwealth Club of California—Moderator In response to the COVID-19 pandemic, we are currently hosting all of our live programming via YouTube live stream. This program was recorded via video conference on April 5th, 2023 by the Commonwealth Club of California. Learn more about your ad choices. Visit megaphone.fm/adchoices

Sam Harris speaks with Martha C. Nussbaum about her philosophical work. They discuss the relevance of philosophy to personal and political problems, the influence of religion, the problem of dogmatism, the importance of Greek and Roman philosophy for modern thought, the Stoic view of emotions, anger and retribution, deterrence, moral luck, sexual harassment, the philosophical significance of Greek tragedy, grief, human and animal flourishing, the "capabilities approach" to valuing conscious life, the rightness or wrongness of moral hierarchies, "the fragility of goodness," and other topics. Martha C. Nussbaum is the Ernst Freund Distinguished Service Professor of Law and Ethics, appointed in the Philosophy Department and the Law School of the University of Chicago. She gave the 2016 Jefferson Lecture for the National Endowment for the Humanities and won the 2016 Kyoto Prize in Arts and Philosophy, the 2018 Berggruen Prize in Philosophy and Culture, and the 2020 Holberg Prize. These three prizes are regarded as the most prestigious awards available in fields not eligible for a Nobel. She has written more than twenty-two books, including Upheavals of Thought: The Intelligence of Emotions; Anger and Forgiveness: Resentment, Generosity, Justice; Not for Profit: Why Democracy Needs the Humanities; and The Monarchy of Fear. Website: simonandschuster.com Learning how to train your mind is the single greatest investment you can make in life. That’s why Sam Harris created the Waking Up app. From rational mindfulness practice to lessons on some of life’s most important topics, join Sam as he demystifies the practice of meditation and explores the theory behind it.