Here are 100 books that Speakable and Unspeakable in Quantum Mechanics fans have personally recommended if you like
Speakable and Unspeakable in Quantum Mechanics.
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I am a professor of philosophy at New York University, but my interests have always fallen at the intersection of physics and philosophy. Unable to commit to just one side or the other, I got a joint degree in Physics and Philosophy from Yale and a PhD in History and Philosophy of Science at the University of Pittsburgh. My fascination with Bell’s Theorem began when I read an article in Scientific American in 1979, and I have been trying to get to the bottom of things ever since. My most recent large project is a Founder and Director of the John Bell Institute for the Foundations of Physics.
Becker’s book is the most reliable popular account of the history of quantum theory from 1925 you can find. Many of the common myths about that history are dispelled, and much attention is paid to later figures like Bell, David Bohm, and Hugh Everett, who kept the discussion of foundational issues alive. A good introduction for the general reader.
Every physicist agrees quantum mechanics is among humanity's finest scientific achievements. But ask what it means, and the result will be a brawl. For a century, most physicists have followed Niels Bohr's Copenhagen interpretation and dismissed questions about the reality underlying quantum physics as meaningless. A mishmash of solipsism and poor reasoning, Copenhagen endured, as Bohr's students vigorously protected his legacy, and the physics community favoured practical experiments over philosophical arguments. As a result, questioning the status quo long meant professional ruin. And yet, from the 1920s to today, physicists like John Bell, David Bohm, and Hugh Everett persisted in…
It is April 1st, 2038. Day 60 of China's blockade of the rebel island of Taiwan.
The US government has agreed to provide Taiwan with a weapons system so advanced that it can disrupt the balance of power in the region. But what pilot would be crazy enough to run…
My undergraduate physics textbook asked, “What is an electric field? Is it something real, or is it merely a name for a factor in an equation which has to be multiplied by something else to give the numerical value of the force we measure in an experiment?” Here, I thought, is a good question! But the textbook said that since electromagnetic theory “works, it doesn’t make any difference" what an electric field is! Then it said, "That is not a frivolous answer, but a serious one.” I felt ashamed. But my physics teacher helpfully suggested that I “speak to the philosophers.” I am very pleased that I decided to become one!
This is the most fun book that has ever been written about the famous philosophical challenges posed by the proper interpretation of quantum mechanics. It is extremely difficult to say what the real world could possibly be like considering that quantum mechanics is so accurate at predicting our observations of it. Albert is a wonderful guide to this problem. His book is genuinely funny and down-to-earth (yes, I mean it!) and it introduces only as much technical and scientific machinery as is absolutely necessary. There is no other quantum mechanics book quite like this one.
The more science tells us about the world, the stranger it looks. Ever since physics first penetrated the atom, early in this century, what it found there has stood as a radical and unanswered challenge to many of our most cherished conceptions of nature. It has literally been called into question since then whether or not there are always objective matters of fact about the whereabouts of subatomic particles, or about the locations of tables and chairs, or even about the very contents of our thoughts. A new kind of uncertainty has become a principle of science.
I am a professor of philosophy at New York University, but my interests have always fallen at the intersection of physics and philosophy. Unable to commit to just one side or the other, I got a joint degree in Physics and Philosophy from Yale and a PhD in History and Philosophy of Science at the University of Pittsburgh. My fascination with Bell’s Theorem began when I read an article in Scientific American in 1979, and I have been trying to get to the bottom of things ever since. My most recent large project is a Founder and Director of the John Bell Institute for the Foundations of Physics.
Ghirardi, together with Alberto Rimini and Tulio Weber, developed the first mathematically rigorous “objective collapse” interpretation of quantum formalism. This book is aimed at a popular audience, and includes discussion of quantum computation and quantum cryptography, which is absent from the other books on the list. The mathematics is slightly greater than in Albert’s book, but does not go beyond a high school level.
Quantum mechanics, which describes the behavior of subatomic particles, seems to challenge common sense. Waves behave like particles; particles behave like waves. You can tell where a particle is, but not how fast it is moving--or vice versa. An electron faced with two tiny holes will travel through both at the same time, rather than one or the other. And then there is the enigma of creation ex nihilo, in which small particles appear with their so-called antiparticles, only to disappear the next instant in a tiny puff of energy. Since its inception, physicists and philosophers have struggled to work…
A Duke with rigid opinions, a Lady whose beliefs conflict with his, a long disputed parcel of land, a conniving neighbour, a desperate collaboration, a failure of trust, a love found despite it all.
Alexander Cavendish, Duke of Ravensworth, returned from war to find that his father and brother had…
I am a professor of philosophy at New York University, but my interests have always fallen at the intersection of physics and philosophy. Unable to commit to just one side or the other, I got a joint degree in Physics and Philosophy from Yale and a PhD in History and Philosophy of Science at the University of Pittsburgh. My fascination with Bell’s Theorem began when I read an article in Scientific American in 1979, and I have been trying to get to the bottom of things ever since. My most recent large project is a Founder and Director of the John Bell Institute for the Foundations of Physics.
Beller did a lot of the historical work that Becker relies on, delving deeply into the personal interaction between Einstein, Bohr, Heisenberg, Schrödinger, and the other founders of quantum theory. The presentation is more scholarly than Becker’s but is a goldmine for anyone who wants to understand the fine details of how quantum theory emerged from that set of distinctive personalities.
This work seeks to show that science is rooted not just in conversation but in disagreement, doubt and uncertainty. Mara Beller argues that it is precisely this culture of dialogue and controversy within the scientific community that fuels creativity. Beller draws her argument from her reading of the history of the quantum revolution, especially the development of the Copenhagen interpretation. One of several competing approaches, this version succeeded largely due to the rhetorical skills of Niels Bohr and his colleagues. Using archival research, Beller shows how Bohr and others marketed their views, misrepresenting and dismissing their opponents as "unreasonable" and…
I am a professor of quantum physics—the most notoriously complicated science humans have ever invented. While the likes of Albert Einstein commented on how difficult quantum physics is to understand, I disagree! Ever since my mum asked me—back while I was a university student—to explain to her what I was studying, I’ve been on a mission to make quantum physics as widely accessible as possible. Science belongs to us all and we should all have an opportunity to appreciate it!
In How to Teach Quantum Physics to Your Dog Chad Orzel has an imaginary conversation about quantum physics with his dog, Emmy. Orzel explains each of the features of quantum physics, like superposition and entanglement, by starting first with an analogy in Emmy’s understandably dog-like behavior.
Quantum physics has never been more popular. Once thought of as an obscure science, it reached the masses via the notion of teleportation in Star Trek and, more recently, as an integral part of the popular TV series Lost and Fringe. Now, inspired by his hugely popular website and science blog, Chad Orzel uses his cherished mutt Emmy to explain the basic principles of quantum physics. And who better to explain the magical universe of quantum physics than a talking dog?
I am totally fascinated by the quest of how Nature does it. In particular, I love the fact that humans managed to enters the strange world of atoms and photons by just using their brute intellectual force and imagination. This world obeys precise rules, but very different ones from those we get used to since childhood. For example, the laws that govern the microscopic world allow for indeterminacy and randomness. Moreover, some random events may manifest themselves at several locations at once, leading to the phenomenon of quantum non-locality. I am very fortunate that I could spend all my professional time on such fascinating conceptual questions, combined with highly timely new technologies.
This little book introduces quantum physics at the level of high-school students. It starts with semi-transparent mirrors and interferometers. With figures, but no equations, the reader becomes familiar with wave-particle duality. Next, quantum cryptography, some experiments, and even quantum teleportation are presented in a truly pedestrian way. I much enjoyed reading this book.
Quantum physics is often perceived as a weird and abstract theory, which physicists must use in order to make correct predictions. But many recent experiments have shown that the weirdness of the theory simply mirrors the weirdness of phenomena: it is Nature itself, and not only our description of it, that behaves in an astonishing way. This book selects those, among these typical quantum phenomena, whose rigorous description requires neither the formalism, nor an important background in physics.
The first part of the book deals with the phenomenon of single-particle interference, covering the historical questions of wave-particle duality, objective randomness…
The Duke's Christmas Redemption
by
Arietta Richmond,
A Duke who has rejected love, a Lady who dreams of a love match, an arranged marriage, a house full of secrets, a most unneighborly neighbor, a plot to destroy reputations, an unexpected love that redeems it all.
Lady Charlotte Wyndham, given in an arranged marriage to a man she…
I am an academic researcher and an avid non-fiction reader. There are many popular books on science or music, but it’s much harder to find texts that manage to occupy the space between popular and professional writing. I’ve always been looking for this kind of book, whether on physics, music, AI, or math – even when I knew that as a non-pro, I wouldn’t be able to understand everything. In my new book I’ve been trying to accomplish something similar: A book that can intrigue readers who are not professional economic theorists, that they will find interesting even if they can’t follow everything.
A simple (not perfect) test of whether you’re going to love this book: Just check out the author’s blog, called “shtetl-optimized”. The style is similar: sharp, funny, mixing professional theoretical Computer Science with broader takes.
I am still in the middle of the book, and nevertheless, I’m happy to recommend it. As an amateur with superficial CS knowledge, I am enjoying this introduction to classical complexity theory and the basic theory of quantum computation.
Aaronson’s distinctive style makes the ride all the more enjoyable. It’s neither a “real” textbook nor a pop-science book. It’s in a weird space somewhere in between, and I love it!
Written by noted quantum computing theorist Scott Aaronson, this book takes readers on a tour through some of the deepest ideas of maths, computer science and physics. Full of insights, arguments and philosophical perspectives, the book covers an amazing array of topics. Beginning in antiquity with Democritus, it progresses through logic and set theory, computability and complexity theory, quantum computing, cryptography, the information content of quantum states and the interpretation of quantum mechanics. There are also extended discussions about time travel, Newcomb's Paradox, the anthropic principle and the views of Roger Penrose. Aaronson's informal style makes this fascinating book accessible…
I am a professor of physics, passionate about researching physics and inspiring non-scientists to enjoy learning about physics. My research addresses how to use quantum physics to accelerate the development of quantum information science including quantum computing, quantum communications, and quantum measurement. My current projects are in developing quantum satellite communications, increasing the precision of telescopes, and constructing a quantum version of the Internet—the Quantum Internet. These topics revolve around quantum optics—the study of how light interacts with matter. I originated the idea of a National Quantum Initiative and lobbied the U.S. Congress to pass it into law, resulting in large investments in the new, exciting field of quantum technology.
This masterful book goes one step further and presents a game-based analogy that goes a long way toward explaining how a quantum computer actually works. Working through the book, one gains an understanding of how qubits can be quantum entangled and how entanglement leads to computing tasks that could not be performed on an ordinary computer. Deceptively simple in appearance, the method leads you deep into the inner workings of quantum logic operations without realizing you are digesting some pretty advanced concepts. The author knows of what he writes, as his theoretical discoveries led to one of the world’s most ambitious quantum computing efforts.
COMPUTING. ENTANGLEMENT. REALITY. Books containing these three words are typically fluff or incomprehensible; this one is not. "Q is for Quantum" teaches a theory at the forefront of modern physics to an audience presumed to already know only basic arithmetic. Topics covered range from the practical (new technologies we can expect soon) to the foundational (old ideas that attempt to make sense of the theory). The theory is built up precisely and quantitatively. Deceptively vague jargon and analogies are avoided, and mysterious features of the theory are made explicit and not skirted. The tenacious reader will emerge with a better…
I am a professor of physics, passionate about researching physics and inspiring non-scientists to enjoy learning about physics. My research addresses how to use quantum physics to accelerate the development of quantum information science including quantum computing, quantum communications, and quantum measurement. My current projects are in developing quantum satellite communications, increasing the precision of telescopes, and constructing a quantum version of the Internet—the Quantum Internet. These topics revolve around quantum optics—the study of how light interacts with matter. I originated the idea of a National Quantum Initiative and lobbied the U.S. Congress to pass it into law, resulting in large investments in the new, exciting field of quantum technology.
Now we are getting to the modern era, where physics meets computing in ways never dreamed of by the founders of quantum physics. Seth Lloyd is a professor at MIT and one of the first to prove that quantum theory admits the possibility of building computers on wholly quantum foundations. He is also one of the most creative and engaging writers on the subject. His main message is that information is the basis of all things physical. From quantum bits or qubits to cosmology, this book has it all, and is written in a highly accessible way. Not a single equation can be found.
The universe is made of bits of information and it has been known for more than a century that every piece of the the universe - every electron, atom and molecule - registers these bits and that information. It is only in the last years, however, with the discovery and development of quantum computers, that scientists have gained a fundamental understanding of just how that information is registered and processed.
Building on recent breakthroughs in quantum computation, Seth Lloyd shows how the universe itself is a giant computer. Every atom and elementary particle stores…
This book follows the journey of a writer in search of wisdom as he narrates encounters with 12 distinguished American men over 80, including Paul Volcker, the former head of the Federal Reserve, and Denton Cooley, the world’s most famous heart surgeon.
In these and other intimate conversations, the book…
I've been teaching math and physics for more than 20 years as a private tutor. During this time, I experimented with different ways to explain concepts to make them easy to understand. I'm a big fan of using concept maps to show the connections between concepts and teaching topics in an integrated manner, including prerequisites and applications. While researching the material for my book, I read dozens of linear algebra textbooks and watched hundreds of videos, looking for the best ways to explain complicated concepts intuitively. I've tried to distill the essential ideas of linear algebra in my book and prepared this list to highlight the books I learned from.
This is a good example of a book that makes a complicated topic accessible and easy to understand. Strictly speaking, this is not a linear algebra book, but quantum computing is so closely linked to linear algebra that I'm including this gem.
Prof. Wong covers all quantum computing topics in a straightforward and intuitive manner. He goes out of his way to prepare hundreds of examples of quantum circuits that made my life easy as a reader. What I like particularly about this book is that it explains all the derivations and all the details without skipping any steps.
I can recognize the work of a true master teacher: whenever I ran into a confusing concept, it was explained a few lines later, as if reading my mind.
