A Course on Quantum Techniques for Stochastic Mechanics is a course book written on a series of blog posts on network theory. The course is available freely online here
Please tell us about errata and your other thoughts on the book here
Blog announcement: A Course on Quantum Techniques for Stochastic Mechanics, John Baez, Azimuth (2012).
The plan is for me to check these off one by one and keep a new updated copy here but please keep reporting these on the blog post.
Some ideas from quantum theory are just beginning to percolate back to classical probability theory. For example, there is a widely used and successful theory of chemical reaction networks, which describes the interactions of molecules in a stochastic rather than quantum way. Computer science and population biology use the same ideas under a different name: stochastic Petri nets. But if we look at these theories from the perspective of quantum theory, they turn out to involve creation and annihilation operators, coherent states and other well-known ideas—but in a context where probabilities replace amplitudes. In this course we will explain this connection as part of a detailed analogy between quantum mechanics and stochastic mechanics. We will study the overlap of quantum mechanics and stochastic mechanics, which involves Hamiltonians that can generate either unitary or stochastic time evolution. These Hamiltonians are called Dirichlet forms, and they arise naturally from electrical circuits made only of resistors. The area is ripe to be further connected with modern topics in quantum computation and quantum information theory.
Thanks to: Greg Egan, Blake Stacey and others who didn’t leave a real name on the blog when reporting these.
p. 224: “Tihs”: -> This
p. 225: “where is a function that the probability of being in each state”: missing verb
p. 229: “Because our reaction network is weakly reversible, Theorem 58 there exists”
Typo on p. 150: “or in a superposition of at least two eigensvectors”
p. 151: “good both for stochastic mechanics and stochastic mechanics.”
p. 152: “The probability of finding a state in the $i$th configuration is defined to be $|\psi(x)|^2$.”
state -> system
$\psi(x)$ replace with $\psi_i$
p. 26: “In Section 2 we’ll get to the really interesting part, where ideas from quantum theory enter the game!”
Section 2 -> Section 3
p. 28: “—that is, random— about a stochastic Petri net.”
random— about -> random—about
p. 47: “It’s like if someone says a party is `formal’, so need to wear a white tie:”
so need -> so you need
p. 54: “This sort of balance is necessary for $H$ to be a sensible Hamiltonian in this sort of stochastic theory `infinitesimal stochastic operator’, to be precise).”
p. 145: “it would be gives us”
theory infinitesimal -> theory (an
infinitesimal
page 3 “electrical circuites”
page 4 “inclluding”
page 10 “the main thing we’ll be talking about in future blog entries”
[Not necessarily a problem, since youre upfront about the origins. The book of Feynmans talks on QED has asides about the number of people in the audience ]
page 20/21 Five cases of [H^{2}O] where you mean [H_{2}O]