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TODAY! Don't miss our talks on the niobium cavity and what can be done to make it even better!

Our very own Danielle gave a talk at the physics session, and she was awesome. Congrats! 🎉

We just uploaded a new version of our manuscript to arXiv.org! We slightly revised the main text, and mostly added supplementary information about tons of stuff - loss channels, chonk-state dephasing and more. Go check it out: scirate.com/arxiv/2302.064…

#NewCoverPic

Stop by my presentation today Superconducting Qubits and Algorithms Conference where I will be showing the results from our novel niobium cavity! Should be around 11:20 Munich time, and also broadcasted on YouTube: youtube.com/@sqaconference arxiv.org/abs/2302.06442

A superconducting cavity qubit with coherence time an order of magnitude larger than the state of the art is demonstrated, showing the storage of a Schrödinger cat state with a record size of 1024 photons. ofir milul, Bar-χ Guttel, Serge Rosenblum go.aps.org/45SQ7Ka

While our students continue to improve their cavity qubits 😱, they also resort to more relaxing activities to cope with the difficult situation here in Israel. Show your appreciation to Danielle Gov and Nitzan Kahn by liking their clip. tiktok.com/@quantumlablif…

New manuscript alert! 🎉 We demonstrate the application of active feedback and recover the coherence of a superconducting cavity qubit. Check it out: arxiv.org/abs/2403.02081 More details will be presented by Serge Rosenblum at @APSMeetings on Thursday at 11:30, session T47.1

Don't miss the invited talk by Serge! Taking place today at 11:30 as part of session T47 in room 200CD.

Ask chatGPT: "Based on what you know about me. draw a picture of what you think my current life looks like."

Physicists at Weizmann Institute extended the phase coherence time for a superconducting #qubit to 182 microseconds using a new method that monitors the qubit’s environment to minimize decoherence. Read the paper: go.aps.org/3ZDZfBN #QuantumComputing

Just published a new preprint on Arxiv with Serge Rosenblum and Rotem Arnon Friedman! We present a method for using bosonic codes to distill entanglement, analogous to stabilizer-based distillation but with substantial hardware advantages.