I was about to ask ... what are miles again?

The Qalypso School on Quantum Science in Malta returns for its 3rd edition Aug 31 - Sep 4 this year! 🏖️

We have a great line up of lecturers covering Quantum Optimisation, Quantum Thermodynamics and Quantum Gibbs Sampling.

Pre-registrations opens today at forms.gle/3NkMJ3Br9V8b...

Do Share!

10 years after its founding, driven by the energy, enthusiasm, & dedication of the community @quantum-journal.bsky.social quietly published paper #2000 some days ago.

At least I think this is a big deal, big shout out to the founders & all authors, reviewers, editors, board members & contributors!

Can Gottesman–Kitaev–Preskill (GKP) encoding turn homodyne detection into a practical tool for revealing Bell nonlocality?

The answer is yes, and in fact GKP states also lead to strong and robust multipartite nonlocality with homodyne detection!

Today on arXiv: arxiv.org/abs/2601.16189 1/n.

Thanks a lot to Gianmichele Blasi and Géraldine Haack from Uni Geneva, Yuri Minoguchi and @entangledanarchist.bsky.social from Vienna for the amazing collaboration where we combined tools from quantum transport, condensed matter and thermodynamics to arrive at this cool result!

This phenomenon is rooted in the spectral rigidity also encountered in random matrix theory, and ubiquitous in fermionic systems. Thus, rigidity of the resulting time signal in this clock is remarkably robust: thermal noise, disorder, and finite size effects only perturbatively affect the scaling.

Therefore, when two excitations (ticks) are too close to each other, the following excitation arrives a bit later, correcting for the previous error. This leads to an exponentially reduced variance growth compared to independent errors.

For independent errors, the timing variance usually grows linearly in time. Here, the fermionic excitations are intrinsically correlated due to the Pauli statistics. This prevents excitations from clustering too closely together but also from being too far apart.

Chain of quantum two level systems. Excitations traveling from left to right, each time marking a tick when they leave on the right.

From one tick to the next, small timing uncertainties in clocks usually add up because of the independence of errors. Using fermions tunneling through a quantum wire as clock ticks, we found a way to build a clock where errors cancel out rather than accumulate. arxiv.org/abs/2601.10785

Bell Inequality Violations Without Entanglement? It's Just Postselection Recently Wang et al. have reported a violation of a Bell inequality without entanglement [arXiv:2507.07756]. We show that their result is an artifact of postselection. It is well known that postselect...

Glad someone took the time to debunk the (obviously nonsensical) claim that Bell inequalities could be violated w/o entanglement. It is astonishing (to say the least) that this claim was made by experienced authors & that it passed peer review in the first place, does not reflect well on the journal

A fun project with Seok Hyung, Jeongrak ( @perp-waterfall.bsky.social ), @nellynghy.bsky.social , and Paul Boes. We dusted off some old notes because there seemed to be renewed interest in what differentiates thermal operations from Gibbs-preserving maps.

arxiv.org/abs/2507.16637

time-reversal with indefinite causal order

sounds fishy 🐟

Universal embezzlers naturally emerge in critical fermion systems, study finds Embezzlement of entanglement is an exotic phenomenon in quantum information science, describing the possibility of extracting entanglement from a resource system without changing its quantum state. In...

Thanks to @phys.org.web.brid.gy for covering our recent work with @stotti-alex.bsky.social and @lvanluijk.bsky.social on embezzlement of entanglement in critical systems:

phys.org/news/2025-06...

Paper: www.nature.com/articles/s41...

Congrats to Jake and all the collaborators for this fantastic work. They take the well studied problem of cooling quantum systems and use cool mathematics from group and graph theory to systematically characterize and solve that problem.

In that sense, I'd put thermo on a level above, a meta-theory.

Good question! Well, I think it would indeed be more appropriate to put thermo on a different level of the hierarchy. Thermo is based on very general principles and those are usually fulfilled by microscopic theories which is why we see emergent thermodynamic phenomena in QTFs or also GR.

Thanks and congrats of course too 😀 Will be a volume with exciting theory

The beautiful artistic illustration in the first post is by Alexander Rommel (www.aerroscape.de), copyright by Alexander Rommel / TU Wien. I also thank my fantastic collaborators from @tuwien.at, @iqoqi-vienna.bsky.social, Chalmers and Malta from the @aspects-quantum.bsky.social consortium!

What this project also shows in my opinion is how important it is to create an informal, inviting and friendly discussion culture in science where also junior people happily express their opinions and thoughts; and how such an environment can seed exciting scientific projects. go.nature.com/4jWxUm7

Here, you can see an animation of the excitation travelling around a ring of 50 sites (y-axis = occupation probability, x-axis = where).

For example with quantum clocks it is possible to circumvent such limitations. The ring-clock does this by counting cycles completed by a single quantum particle traveling a ring. Since coherent transport is dissipation-free, this clock breaks the linear entropy-precision bound exponentially.

Generally, the more accurate a clock is, the more entropy it produces. For a wide range of classical stochastic clocks this is proved by the so-called "Thermodynamic Uncertainty Relation", which provides a linear relationship between clock precision and entropy.

Copyright by Alexander Rommel / TU Wien.

What started as informal discussions on the Danube beach in Vienna during QTD2023 has been published at last. Trying to come up with an experimentally feasible quantum clock we came across a rich model – the ring clock – that overturned a common wisdom in the community. doi.org/10.1038/s415...

Fantastic, congrats!

FLQT 2025 — ASPECTS Fundamental Limits of Quantum Technologies conference, Dublin, 25-29 August 2025

Don't forget to submit your abstract for our conference in Dublin, August 2025! www.aspects-quantum.com/flqt2025

We are excited for Fundamental Limits of Quantum Technologies conference, Dublin, 25-29 August. Only three weeks left until the abstract submission deadline, don't delay! All details at www.aspects-quantum.com/flqt2025

Gozo QI - Expression of Interest I really like no timetable free discussion workshops. It seems like the Benasque Quantum Information Workshop has gotten too many applicants to cater for the demand. Having organised a couple confer...

Sms alot of people wanna go to Benasque QI than one can fit in the beautiful tiny village.

Having organised a bunch of stuff in Malta, I feel the urge to organise a straggler event on the island of Gozo.

If interested, fill this form so I can gauge interest - share!

forms.gle/azwrJe8AidrS...

We’re organising a conference in Dublin! Fundamental Limits of Quantum Technologies 2025 — everything from error mitigation on NISQ devices, through control constraints on complex quantum systems, to quantum thermodynamics and energetics, and much more! Abstract submission and registration open! 👇