How can black holes help us understand the workings of a quantum computer?
The Q&A for this talk is available exclusively for our members: https://youtu.be/vdZ4AIwvqTM
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Black holes are believed to be the most efficient quantum computers naturally existing in our universe. Standard computers do not have the capabilities to quickly solve some of the problems and unanswered questions facing researchers, but black holes may be able to provide insight into how quantum computers work and facilitate their development.
In this talk, discover how a quantum computer makes use of the quantum states of subatomic particles to both store and process information and explore the long-standing question of what happens if you fall into a black hole, from a new quantum perspective.
00:00 Introduction to the talk
4:36 What is a black hole?
8.34 The Event Horizon
12:55 Evidence and detection of black holes
19:53 Approaching a black hole
22:17 The black hole in Interstellar
25:01 Modern imaging of black holes
27:22 Gravitational waves
38:04 Black holes and quantum theory
46:44 New quantum perspectives
49:04 Black holes as giant hard drives
51:24 Real quantum computers?
55:45 Quantum errors
57:38 Black holes and error correction
59:44 From black holes to quantum computing
This lecture was recorded at the Ri on 8 September 2023.
Professor Marika Taylor is a Professor of Theoretical Physics and Head of School within Mathematical Sciences at the University of Southampton. She is a member of the Centre for Geometry, Topology, and Applications, Southampton Theory Astrophysics and Gravity (STAG) Research Centre, Applied Mathematics and Theoretical Physics group and the String Theory and Holography group.
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,Ri,Royal Institution,royal institute,WfCItXZ7dFo,UCYeF244yNGuFefuFKqxIAXw, Knowledge, channel_UCYeF244yNGuFefuFKqxIAXw, video_WfCItXZ7dFo,2025 is the International Year of Quantum Science and Technology, as marked by the UN, to celebrate 100 years since the birth of quantum mechanics. But quantum science is one of the least diverse areas of science in terms of gender and other protected characteristics.
Jess Wade, a physicist and lecturer in functional materials at Imperial College London, has been fighting the inequality in quantum physics and beyond by creating thousands of Wikipedia pages for women scientists. Jess joins us this month to discuss the past, present, and future of quantum science along with what can be done to increase diversity within the field.
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Jess Wade is a British physicist in the Blackett Laboratory at Imperial College London, specialising in Raman spectroscopy. Her research investigates polymer-based organic light emitting diodes (OLEDs). Her public engagement work in science, technology, engineering, and mathematics (STEM) advocates for women in physics as well as tackling systemic biases such as gender and racial bias on Wikipedia. Read more about here here: https://en.wikipedia.org/wiki/Jess_Wade
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Producer: Lia Hale
Assistant producers: Katie Mortimer, Isla Nakano
Interviewer: Lia Hale
Music: Joseph Sandy
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,Ri,Royal Institution,royal institute,MdOCu2Gr-0g,UCYeF244yNGuFefuFKqxIAXw, Knowledge, channel_UCYeF244yNGuFefuFKqxIAXw, video_MdOCu2Gr-0g,Join this channel to get access to perks:
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,Ri,Royal Institution,royal institute,PLc0BCjbFcg,UCYeF244yNGuFefuFKqxIAXw, Knowledge,Religion, channel_UCYeF244yNGuFefuFKqxIAXw, video_PLc0BCjbFcg,In the first of his CHRISTMAS LECTURES, Richard Dawkins explores the origins of life. Beginning with a look at our ancestry, he shows how the probability of our existence is very small.
Watch all the lectures in this series here: https://www.youtube.com/playlist?list=PLbnrZHfNEDZwJw3_jDeusmHuVYDdKRpo9
Watch our newest Christmas lectures here: https://www.youtube.com/playlist?list=PLbnrZHfNEDZyQJZLPMjwEoOLdkFBLU2m1
This lecture was filmed at the Ri on 1 December 1991.
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Life grows up in the universe by gradual degrees of evolution. Billions of years ago, there existed a vast population of bacteria. But it was only an elite group of these bacteria that evolved to become humans. In truth, we are lucky to be alive.
In the first of his CHRISTMAS LECTURES, Richard Dawkins explores the origins of life. Beginning with a look at our ancestry, he shows how the probability of our existence is very small. Becoming an ancestor is much more difficult than simple reproduction, and Richard reveals how our ancestors did what it took to survive and pass on their genes.
But although some of our life must be devoted to perpetuating it, surely there must be more to it? Richard explores the role of art and culture in society, and examines how the capabilities of the human body have enabled us to accomplish complex tasks.
When it comes to our understanding of the meaning of life, science is important. As Richard explains, science can help us uncover both when we arrived on this planet, and why we are here. Some people turn to the supernatural for the answer to such questions. Richard looks at the limitations of beliefs in the supernatural and uses a cannonball to prove why instead we should have faith in science and its predictions.
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About the 1991 CHRISTMAS LECTURES
The world-famous evolutionary biologist Richard Dawkins presents the CHRISTMAS LECTURES on "our own growing knowledge of how life grows up in the universe."
Just as children grow up to be adults, so too does life gradually evolve on a planet over thousands of generations, to move from “nonliving simplicity” to become “living complexity”.
Combining beautiful writing with a range of illuminating demonstrations, the series featured a variety of wildlife, a virtual reality Lecture Theatre, and special guests – including the late Douglas Adams reading an excerpt from The Hitchhiker's Guide to the Galaxy.
Find out more about the Ri CHRISTMAS LECTURES here: https://www.rigb.org/christmas-lectures
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,Ri,Royal Institution,royal institute,sO5adbV_mu8,UCYeF244yNGuFefuFKqxIAXw, Knowledge, channel_UCYeF244yNGuFefuFKqxIAXw, video_sO5adbV_mu8,Watch the Q&A for Sean Carroll's lecture on Einstein's equation explaining spacetime. You can watch the original lecture here: https://youtu.be/BRudidBcfXk
The original lecture and this Q&A were recorded at the Ri on Monday 14 August 2023.
Our lecture Q&As are usually a perk for our YouTube Science Supporters, as a thank you for helping us bring science to more people, but we're publishing this one for everyone as Sean's talk has been so popular.
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,1,Join this channel to get access to perks:
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,1,How can black holes help us understand the workings of a quantum computer?
The Q&A for this talk is available exclusively for our members: https://youtu.be/vdZ4AIwvqTM
Subscribe for regular science videos: http://bit.ly/RiSubscRibe
Black holes are believed to be the most efficient quantum computers naturally existing in our universe. Standard computers do not have the capabilities to quickly solve some of the problems and unanswered questions facing researchers, but black holes may be able to provide insight into how quantum computers work and facilitate their development.
In this talk, discover how a quantum computer makes use of the quantum states of subatomic particles to both store and process information and explore the long-standing question of what happens if you fall into a black hole, from a new quantum perspective.
00:00 Introduction to the talk
4:36 What is a black hole?
8.34 The Event Horizon
12:55 Evidence and detection of black holes
19:53 Approaching a black hole
22:17 The black hole in Interstellar
25:01 Modern imaging of black holes
27:22 Gravitational waves
38:04 Black holes and quantum theory
46:44 New quantum perspectives
49:04 Black holes as giant hard drives
51:24 Real quantum computers?
55:45 Quantum errors
57:38 Black holes and error correction
59:44 From black holes to quantum computing
This lecture was recorded at the Ri on 8 September 2023.
Professor Marika Taylor is a Professor of Theoretical Physics and Head of School within Mathematical Sciences at the University of Southampton. She is a member of the Centre for Geometry, Topology, and Applications, Southampton Theory Astrophysics and Gravity (STAG) Research Centre, Applied Mathematics and Theoretical Physics group and the String Theory and Holography group.
Join this channel to get access to perks:
https://www.youtube.com/channel/UCYeF244yNGuFefuFKqxIAXw/join
The Ri is on Twitter: http://twitter.com/ri_science
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and TikTok: https://www.tiktok.com/@ri_science
Donate to the RI and help us bring you more lectures: https://www.rigb.org/support-us/donate-ri
Listen to the Ri podcast: https://podcasters.spotify.com/pod/show/ri-science-podcast
Our editorial policy: https://www.rigb.org/editing-ri-talks-and-moderating-comments
Subscribe for the latest science videos: http://bit.ly/RiNewsletter
Product links on this page may be affiliate links which means it won't cost you any extra but we may earn a small commission if you decide to purchase through the link.
