English

The Ghost in the Quantum Turing Machine

Quantum Physics 2013-06-10 v2 General Literature History and Philosophy of Physics

Abstract

In honor of Alan Turing's hundredth birthday, I unwisely set out some thoughts about one of Turing's obsessions throughout his life, the question of physics and free will. I focus relatively narrowly on a notion that I call "Knightian freedom": a certain kind of in-principle physical unpredictability that goes beyond probabilistic unpredictability. Other, more metaphysical aspects of free will I regard as possibly outside the scope of science. I examine a viewpoint, suggested independently by Carl Hoefer, Cristi Stoica, and even Turing himself, that tries to find scope for "freedom" in the universe's boundary conditions rather than in the dynamical laws. Taking this viewpoint seriously leads to many interesting conceptual problems. I investigate how far one can go toward solving those problems, and along the way, encounter (among other things) the No-Cloning Theorem, the measurement problem, decoherence, chaos, the arrow of time, the holographic principle, Newcomb's paradox, Boltzmann brains, algorithmic information theory, and the Common Prior Assumption. I also compare the viewpoint explored here to the more radical speculations of Roger Penrose. The result of all this is an unusual perspective on time, quantum mechanics, and causation, of which I myself remain skeptical, but which has several appealing features. Among other things, it suggests interesting empirical questions in neuroscience, physics, and cosmology; and takes a millennia-old philosophical debate into some underexplored territory.

Keywords

Cite

@article{arxiv.1306.0159,
  title  = {The Ghost in the Quantum Turing Machine},
  author = {Scott Aaronson},
  journal= {arXiv preprint arXiv:1306.0159},
  year   = {2013}
}

Comments

85 pages (more a short book than a long essay!), 2 figures. To appear in "The Once and Future Turing: Computing the World," a collection edited by S. Barry Cooper and Andrew Hodges. And yes, I know Turing is 101 by now. v2: Corrected typos

R2 v1 2026-06-22T00:26:27.789Z