Assuming 1.5bits of information per character, we have only explored <10^-70 of all possible tweets (excluding memes). So at least as much discourse and literature to explore. It's a big world in both atoms and bits out there.

JupyterLab 3.0 is released! - visual debugger - support for multiple display languages - table of content for notebooks - improved extension system. Check out the announcement blog post. blog.jupyter.org/jupyterlab-3-0…

We sometimes talk about quantum money, in the sense of using entanglement to protect against forgery. But what is the smallest unit, or quantum of money? This question is considered by the authors of this fun article: doi.org/10.1016/j.phys…

Great thread on shortcuts to adiabaticity

A promising building block for a fault-tolerant #quantum processor is demonstrated: Exponential protection against relaxation and first-order protection against dephasing is achieved in a #superconducting qubit. Andrew Houck, Alexandre Blais, David Schuster bit.ly/3qoRcUp

The new results from Pan and Zhang have sparkled again a healthy debate on quantum supremacy. A crucial aspect (often overlooked) is that **both** non-error corrected quantum hardware and classical simulation scale exponentially at "simulating" quantum circuits. (1/5)

Quarantine math workout

By using qubit-based detectors, physicists may be able to speed up searches for dark matter by a factor of 1000 or more, researchers at UChiPhysics, Fermilab, and UC Berkeley find. physics.aps.org/articles/v14/s…

Our perspective article on protected superconducting qubits is now online at PRX Quantum bit.ly/3mRLfS2. What do you think comes after the transmon to reach fault-tolerant QC? Or is the transmon enough? Work done with Gyenis András Agustin Di Paolo J Koch Andrew Houck David Schuster

What solutions are people using for electronic lab notebooks? 📒

Never heard this before 🤯🔭

Congrats to Andrei Vrajitoarea for his last paper from my group on many-body quantum optics, combining ultrastrong coupling and photonic crystals. Andrei is just finishing a postdoc with David Schuster Jon Simon and would make a fantastic faculty member. arxiv.org/abs/2209.14972

High-fidelity two-qubit gates are achieved with heavy-fluxonium qubits that not only break conventional paradigms but also help diversify quantum applications. David Schuster Article: go.aps.org/4b5nD2v Synopsis: go.aps.org/3y4JGb6

Superconducting qubits getting faster and beginning to operate at higher temperatures! Happy to answer any questions about these experiments.