QuTiP Lectures as IPython notebooks
Quantum mechanics and quantum optics lectures and demonstrations using QuTiP. For more information about QuTiP, see
To open these notebooks in IPython, download the files to a directory on your computer and from that directory run:
$ ipython notebook
This will open a new page in your browser with a list of the available notebooks.
Online read-only versions
Use the following links:
- Lecture-0 Introduction to QuTiP
- Lecture-1 Jaynes-Cumming model
- Lecture-2A Cavity-Qubit Gates
- Lecture-2B Single-Atom Lasing
- Lecture-3A Dicke model
- Lecture-3B Jaynes-Cumming with ultrastrong coupling
- Lecture-4 Correlation Functions
- Lecture-5 Parametric Amplifier
- Lecture-6 Quantum Monte Carlo Trajectories
- Lecture-7 iSWAP-gate
- Lecture-8 Adiabatic quantum computing
- Lecture-9 Squeezed states of harmonic oscillator
- Lecture-10 cQED in the dispersive regime
- Lecture-11 Charge Qubits
- Lecture-12 Decay into a squeezed vacuum field
- Lecture-14 Kerr nonlinearities
- Lecture-16 Gallery of Wigner functions