Research update on our entanglement-enhanced interferometry paper from Physics World: physicsworld.com/a/quantum-me...
04.03.2026 14:22
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Research update on our entanglement-enhanced interferometry paper from Physics World: physicsworld.com/a/quantum-me...
A big congrats to everyone β Pieter-Jan Stas, Yan-Cheng Wei, Maxim Sirotin, Yan Qi Huan, Umut Yazlar, Francisca Abdo Arias, Eugene Knyazev, Gefen Baranes, Bart Machielse, Samuele Grandi, Daniel Riedel, Johannes Borregaard, Hongkun Park, Marko Loncar, Misha Lukin!
Quantum entanglement meets astronomy: Our paper "Entanglement-assisted non-local optical interferometry in a quantum network" is out in Nature! πA step toward entanglement-enhanced telescope arrays!
π www.nature.com/articles/s41...
New postdoc openings in our group at UC Berkeley! If you wanted to develop hybrid platforms with neutral atom qubits - reach out (CV attached). Deep experimental experience in AMO, superconducting circuits, or quantum optics (with matter qubits) will be highly relevant! βοΈ
Do I know anyone here teaching Quantum Physics/Information Science to a non-physics degree audience? Would love to chat. π
UC Berkeley Physics is looking for a tenure-track Assistant Professor in Theoretical Atomic Physics β an amazing opportunity to join our dynamic AMO/Quantum community. If interested π aprecruit.berkeley.edu/JPF05147
awesome :)
At CLEO this week! My talk is on Thursday, 8:30 AM - 9:00 AM in 203 B in the "Quantum Communications and Networking" session. Come say hi or reach out. :)
Hot off the press: our paper on distributed blind computing across a two-node quantum network has been published in Science. Good job to the amazing team! :) science.org/doi/10.1126/...
Giving a talk on our recent results with blind distributed gates over a two-node quantum network today at 11.30 am (204C) at APS March Meeting. Come say hi π summit.aps.org/events/MAR-M...
e) we bought our own YYY machine, etc.. Not looking for any fancy metals, Al and Stainless Steal is good enough, but if fancier materials like niobium, titanium and invar are also options - that's even better. Cheers :) :)
Hey, lab dwellers, What is your current favorite metal machining or 3D printing pipeline for fast prototyping? E.g. a) we machine ourselves in the student shop, b) we order from university pro machine shop, c) we metal 3D print on campus, d) we order parts from XXX since it's fast and cheap,
Happy International Women's Day! And thanks to @BlueFors_Ltd for a nice feature: bluefors.com/stories/insp...! It's an honor to be among Xueyue (Sherry) Zhang
and @evevavagiakis.bsky.social π π
Itβs ideal for an experimentalist who isnβt quite ready to let go of the qubits they used in their PhD, but is eager to explore how they can interact with others. ππ If youβre interestedβor know someone whoβd be a great fitβreach out!
Due to the hybrid nature of our research, a broad range of expertise would be valuable: a good-fit candidate could be a neutral atoms/AMO expert or nanophotonics/superconducting expert interested in learning how to build a completely different platform!
If youβre interested in interfacing different quantum platformsβto scale or create novel distributed/modular quantum systemsβthis might be the perfect spot. Weβre chasing some wild ideas and need someone just as excited about pushing limits.
Happy New Year! Iβm looking for a postdoc to join our new lab at UC Berkeley starting in summer 2025 (flexible). We are building Hybrid quantum systems based on neutral atoms platform with nanophotonics and superconducting circuits. βοΈβ‘οΈβοΈ suleymanzadelab.com
Huilo Huilo, Chile. :)
And a blind two-qubit gate across two remote network nodes (two labs located on different floors of our building) again servers don't know whether the gate is entangling or not - this information is only available to the client who only possesses a photon detector and an AOM.
Also, a two-qubit blind gate inside one node of our network which hides whether the gate is entangling or identity, controlled by the client (unknown to the server).
We performed universal single-qubit gates blindly, including Identity π€£, Hadamart and a non-Clifford gate. arxiv.org/abs/2412.03020
Our paper on distributed blind computing is out on Arxiv! In short: we performed gates on our spin qubits remotely using photons without our nodes knowing what we did - all thanks to distributed matter-light entanglement π₯³
