The video of my 13th lecture on the theory of quantum noise and decoherence is now available.

Here in lecture 13 I complete the derivation of Lindblad form for completely positive semigroups and discuss quantum jumps:

An open science weblog focussed on quantum information theory, condensed matter physics, and mathematical physics

The video of my 13th lecture on the theory of quantum noise and decoherence is now available.

Here in lecture 13 I complete the derivation of Lindblad form for completely positive semigroups and discuss quantum jumps:

The video of my 12th lecture on the theory of quantum noise and decoherence is now available.

Here in lecture 12 I begin the derivation of Lindblad form for completely positive semigroups:

The video of my 11th lecture on the theory of quantum noise and decoherence is now available.

Here in lecture 11 I continue the discussion of a model for the continuous measurement of position:

The video of my 10th lecture on the theory of quantum noise and decoherence is now available.

Here in lecture 10 I continue the discussion of master equations for quantum dots and introduce a model for the continuous measurement of position:

The video of my 9th lecture on the theory of quantum noise and decoherence is now available.

Here in lecture 9 I discuss quasi-free fermion systems and begin the discussion of master equations for quantum dots:

I’d like to advertise the video of my 5th lecture on the theory of quantum noise and decoherence, which is now available. Here I introduce coherent states and displacement/Weyl operators:

I’d like to share with you the video of lecture 4 of my course on the theory of quantum noise and decoherence in which I introduce coherent states and displacement/Weyl operators.

As always, if you want to see more of this kind of thing then please like this video; if you think it sucked then do go ahead and dislike it. And if you want to stay up to date with more content like this then please don’t hesitate to subscribe.