Einstein and the Quantum Revolutions
Autor Alain Aspect Cuvânt înainte de David Kaiser Traducere de Teresa Lavender Faganen Limba Engleză Hardback – 29 oct 2024
At the start of the twentieth century, the first quantum revolution upset our vision of the world. New physics offered surprising realities, such as wave-particle duality, and led to major inventions: the transistor, the laser, and today’s computers. Less known is the second quantum revolution, arguably initiated in 1935 during a debate between giants Albert Einstein and Niels Bohr. This revolution is still unfolding. Its revolutionaries—including the author of this short accessible book, Nobel Prize–winning physicist Alain Aspect—explore the notion of entangled particles, able to interact at seemingly impossible distances. Aspect’s research has helped to show how entanglement may both upend existing technologies, like cryptography, and usher in entirely new ones, like quantum computing. Explaining this physics of the future, this work tells a story of how philosophical debates can shape new realities.
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Specificații
ISBN-13: 9780226832012
ISBN-10: 0226832015
Pagini: 112
Ilustrații: 7 halftones
Dimensiuni: 127 x 203 x 15 mm
Greutate: 0.22 kg
Ediția:First Edition
Editura: University of Chicago Press
Colecția University of Chicago Press
ISBN-10: 0226832015
Pagini: 112
Ilustrații: 7 halftones
Dimensiuni: 127 x 203 x 15 mm
Greutate: 0.22 kg
Ediția:First Edition
Editura: University of Chicago Press
Colecția University of Chicago Press
Notă biografică
Alain Aspect is professor at Institut d’Optique-Université Paris-Saclay, professor at École Polytechnique, and CNRS senior scientist emeritus. Among his many awards, Aspect was a co-recipient of the 2022 Nobel Prize in Physics “for experiments with entangled photons, establishing the violation of Bell inequalities and pioneering quantum information science.” Teresa Lavender Fagan is a freelance translator living in Chicago; she has translated numerous books for the University of Chicago Press and other publishers.
Cuprins
Foreword by David Kaiser
Two Quantum Revolutions
The First Quantum Revolution
Wave-Particle Duality
The Success of the First Quantum Revolution
The Second Quantum Revolution
Entanglement Measurement Experiments
The Manipulation of Quantum Objects
Quantum Information
Quantum Cryptography
In Search of the Limit
About the Author
Two Quantum Revolutions
The First Quantum Revolution
Wave-Particle Duality
The Success of the First Quantum Revolution
The Second Quantum Revolution
Entanglement Measurement Experiments
The Manipulation of Quantum Objects
Quantum Information
Quantum Cryptography
In Search of the Limit
About the Author
Recenzii
"The French Nobel laureate Aspect explains there has been not just one quantum revolution but two. The second is ongoing, with the results being felt in areas such as computing and communications. This, says Aspect, is the science of the future; the full potential of 'entangled particles' which interact at distance is still unfolding."
"French physicist Aspect is a pioneer in ‘quantum entanglement’—connections between the quantum properties of subatomic particles that are preserved even at distances too great for signals to travel at light speed. He shared the 2022 Nobel Prize in Physics for this work, which underpins quantum computers and other technologies. With his book on the foundations of quantum mechanics being released, Aspect . . . [tells] why he sees parallels between physics and magic, why Einstein doesn’t get all the credit he deserves and how there were two quantum revolutions, not one."
"Nobel Prize–winning physicist Aspect offers a brisk . . . overview of how Albert Einstein set off two twentieth-century upheavals in physics. In 1909, Einstein resolved scientific debate over the nature of light by proposing it 'was both a particle and a wave,' Aspect explains, noting that the discovery underpinned the development of computers and 'lasers that enable the processing and transmission of information' through optical fibers. The second revolution followed Einstein’s 1935 postulation that, according to quantum mechanics, there are circumstances under which two subatomic particles can be 'entangled' and act on each other regardless of the distance separating them. Aspect recounts how this idea remained the purview of abstract philosophical inquiry until the 1970s, when he and other physicists began developing techniques to work with entangled photons and paved the way for research that promises to produce quantum computers capable of performing calculations in a fraction of the time current computers require. Aspect does a solid job of covering how Einstein’s innovations have changed the world. . . . This intrigues."
"Aspect's work was fundamental to showing that quantum theory really did do away with local reality—that entangled quantum particles were genuinely able to effectively communicate (even though we can't control what they communicate) instantaneously at any distance. . . . For entanglement groupies like me, anything about the subject is worth having, and I'm glad to be able to read (translated from the French by Fagan) some words from the great man."
“Fascinating. . . . Aspect’s beautiful experiment, completed in 1982, had a catalyzing effect on the scientific community. . . . The tiny spark of the second quantum revolution began to grow.”
“Lively, accessible, and brisk, Aspect’s book tells a compelling century-long story of groundbreaking discoveries. This is the perfect introduction to turn any reader into a quantum physics enthusiast.”
“This book tells a magnificent story of science, in which experimentation made it possible to resolve philosophical debates.”
“Simple and excellent.”
“A slim book that authoritatively outlines the foundations and paradoxical consequences [of quantum mechanics].”
“Retraces one of the liveliest scientific debates of the last century.”
"This book is a journey between theory and experiment, between mathematical models and reality, between science and technology."