Zero Hunters

Jakob Schwichtenberg

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Some discoveries alter our perception so fundamentally that they create a void where certainty once stood. Moments when the fabric of our understanding tears open, revealing something that was always there but impossible to see. Like the discovery of the number zero itself these breakthroughs reveal concepts that were always there, hiding in plain sight.

12/11/2024

Jonte Hance: Why Quantum Mechanics Needs More Than Reinterpretation

ZeroHunters.com Why studying quantum foundations matters despite the theory "working" The gap between quantum theory development and quantum technologies (50-60 years) The measurement problem in quantum mechanics Different formulations vs. interpretations vs. modifications of quantum mechanics The role of decoherence in the measurement problem Bell's theorem and statistical independence Alternative approaches to Bell's theorem beyond standard interpretations Super-measured theories and global constraints The relationship between measurement and correlations in quantum mechanics Notable Quotes & Points: "The measurement problem is how we go from what quantum mechanics predicts when we get decoherence... to what we actually observe." Discussion of how the measurement problem requires new mathematics, not just reinterpretation Explanation of why statistical independence violation doesn't necessarily imply superdeterminism Insight into how quantum measurement and correlation might be better understood through global constraints rather than casual mechanisms Technical Concepts Covered: Decoherence and density matrices Statistical independence in Bell's theorem EPR correlations Measurement back-action Quantum state space limitations Heisenberg operator formalism

56 min
12/11/2024

Jean Bricmont: Particles Move - The Beauty and Simplicity of Bohmian Mechanics

ZeroHunters.com In this episode, physicist and philosopher Jean Bricmont discusses his views on quantum mechanics and why he considers the de Broglie-Bohm theory to be the most satisfactory understanding of quantum phenomena. Key points include: The limitation of standard quantum mechanics as being only about laboratory measurements rather than describing reality The EPR-Bell argument: EPR shows that either quantum mechanics is incomplete or non-local; Bell proves it must be non-local Why the de Broglie-Bohm theory is not just another interpretation but a "rational completion" of quantum mechanics Detailed discussion of how the Bohmian theory explains quantum phenomena: Particles have definite positions but no intrinsic properties like spin The wave function exists in configuration space and guides particle motion Measurements are physical interactions, not discoveries of pre-existing properties Non-locality arises naturally from the wave function in configuration space Critique of alternative approaches: Problems with Many Worlds interpretation (can't account for probabilities) Issues with GRW/spontaneous collapse theories (ad hoc parameters) Why "statistical independence" arguments against Bell's theorem fail The importance of having a clear ontology in physical theories Why tabletop quantum analogue experiments can't capture non-locality Discussion of scientific practice and the dangers of excessive skepticism

54 min
12/03/2024

Simon Friederich: The Q-based interpretation of quantum theory

Learn more about ⁠Zero Hunters⁠. Simon Friederich is an Associate Professor of Philosophy of Science at the University of Groningen. His work focuses on quantum foundations and interpretations, and he has written a book about interpretation of quantum mechanics. In this episode, we discuss: • The three main types of quantum interpretations: anti-realist/Copenhagen, many-worlds/Everett, and Bohmian mechanics • The measurement problem in quantum mechanics • Phase space quantum mechanics and quantization • The Kochen-Specker theorem and its implications • The Q-function (Husimi function) as an alternative to the Wigner function • Temporal bidirectional stochastic dynamics and its relation to Bell's theorem Key Highlights: • The distinction between formulation and interpretation in quantum mechanics • Einstein's vision of quantum mechanics as similar to classical statistical mechanics • How the Q-function might provide a new perspective on quantum mechanics • The possibility of violating Bell inequalities through backward-in-time nomological probabilistic dependencies without retrocausality Quotes: • "For some reason, when it comes to quantum mechanics, people immediately assume you have to then each different formulation automatically comes with an interpretation, which isn't really the case." • "I have come to think that actually this is very weirdly argued because you start with assuming that the quantum dynamic variables are not the classical ones, but they are these self adjoint linear operators. And then you ask yourselves, hey, how can I assign sharp values to those things?" • "If you think of the quantization mapping as a mapping within quantum theory, and not the self adjointly operators represent the classical dynamical variables, then Kochen Specker non contextuality is not a plausible assumption because all the most promising quantization mappings, they don't preserve algebraic relations." Links/References: • Introducing the Q-based interpretation of quantum theory by Simon Friederich

52 min
12/03/2024

Wayne Myrvold: Bell's Theorem, the illusion of scientific consensus, reality of quantum states

Learn more about Zero Hunters. Wayne Myrvold is a Professor of Philosophy at the University of Western Ontario. He specializes in philosophy of physics and has made significant contributions to our understanding of quantum mechanics, particularly regarding Bell's theorem and quantum state realism. He is also the co-author of the Stanford Encyclopedia article on Bell's theorem. In this episode, we discuss: • The problem with treating quantum interpretations like sports teams and why we should avoid simply "picking a side" • Why the common belief that classical physics had no interpretational debates is historically incorrect • The real meaning of Bell's theorem and why the phrase "local realism" has muddied the waters • The distinction between different formulations of a theory versus different theories • Historical debates about the nature of matter, including fascinating examples like the "molecular vortices" theory • Why quantum mechanics demands interpretation in ways that seem different from classical theories • The status of quantum state realism and what we can confidently say about quantum reality Key Highlights: The importance of understanding the space of possibilities rather than committing to one interpretation How 19th-century physics wasn't as settled as many people think The different types of "non-locality" in quantum mechanics Why we should be skeptical of claims that require specific assumptions for Bell's theorem Quotes: "I don't give a shit whether I like the answer or not." - on approaching quantum foundations "There has never been a time in the history of science when there was a clear consensus on what the world was like at the fundamental level." Links/References: Stanford Encyclopedia article on Bell's theorem (co-authored by Myrvold) Myrvold's paper on quantum state realism

53 min

4 Episodes

Creator

Jakob Schwichtenberg
Years Active

2K
Episodes

4
Rating

Clean
Show Website

Zero Hunters

Zero Hunters

Episodes

Jonte Hance: Why Quantum Mechanics Needs More Than Reinterpretation

Jean Bricmont: Particles Move - The Beauty and Simplicity of Bohmian Mechanics

Simon Friederich: The Q-based interpretation of quantum theory

Wayne Myrvold: Bell's Theorem, the illusion of scientific consensus, reality of quantum states

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