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Ohad Lib
@OhadLib
Postdoc at the Max Planck Institute for Quantum Optics
Joined July 2022
373 Following
119 Followers
21 Posts
@BosonBulmer @ComplexPhoton Our approach allowed us to get to ~9 qubits with only two photons and without active feedforward. Indeed, we pay in the number of modes (but not too much in the depth of the linear optics circuit). As discussed in the paper, to scale up, more photons will of course be required..
Interested in controlling multiple spatial modes of light? Check out our new tutorial on how to turn your SLM into a 10-plane light converter!
https://t.co/bIJLYGEqA6
Who to follow
Matt McEwen
@mattjmcewen
Research scientist at Google Quantum AI
https://t.co/tEruhyrMTk
Siddhant Singh
@siddhantphy
Ph.D. at @qutech_news, @TUDelft | Quantum Architecture & Error Correction 🌐 | #qecarxiv | Extreme Sports' Athelete - Skydiving & Parkour & Kickboxing
Ziv Aqua
@AquaZiv
Postdoc @MIT | Exploring cavity-QED, atomic physics and quantum computing
Our paper on the encoding of cluster states using high-dimensionlly entangled photons is finally out in @NaturePhotonics:) Take a look!
Check out our new @NaturePhotonics paper on the generation of cluster states at record-high rates using high-dimensional entanglement:
https://t.co/af7POYsi9v
We use spatial entanglement to reduce the number of photons and feed-forward steps in photonic quantum computation (a 🧵)
Check out our work on shaping entangled photons using classical feedback!
https://t.co/vouX8swuA4
@RonenShekel and @OhadLib show how we utilize Klyshko’s advanced wave picture, to compensate for scattering of entangled photons through an arbitrary medium (a thread🧵)
New arXiv by @RonenShekel and @OhadLib!
Interested in how to compensate scattering of entangled photons through an arbitrary scattering medium? Read more here:
https://t.co/5mScL3VsRX
For everyone who likes to celebrate Christmas by reading about transversal gates on quantum codes, I have the perfect present for you! 🎁
Learn the basics of how to compute with quantum error-correcting codes in my new blog post on the topic!
https://t.co/frCup01agC
Interested in photonic measurement-based quantum computation?
Check out our new @arxiv:
https://t.co/WTVSnHyevm
https://t.co/dg58D2fTOM
We use high-dimensional spatial entanglement and multi-plane light conversion to encode and certify large cluster states at high rates
@photonPhillips Beautiful work! Looks like a challenging experiment...
We recently worked hard to extend our MPLC from 5 to 10 planes with a similar SLM. We can maybe exchange tips at some point regarding alignment etc.
Again, amazing work, and congrats to Hlib:)
Shaping spatial correlations between entangled photons using the "fiber piano"🎹
Check out our new @arxiv: https://t.co/PIUWemYTYc and thread below🧵👇
Check out our new "quantum piano" work on the @arXiv! https://t.co/7Ke0icHe4k 😀When entangled photons propagate through a multimode fiber, their correlations are scrambled. We show a cool way to recover these correlations–by bending the fiber mechanically!🎹 a thread🧵
Check out our new work on coherent backscattering of spatially entangled photons!😀
Check out our work on coherent backscattering of entangled photons @NaturePhysics😃https://t.co/aTfIbSPYwn
When entangled photons scatter, their correlations are scrambled. However, we show that when they backscatter together, they exhibit enhanced correlations! a thread🧵
Check out our new work on the interaction between solitons in mode-locked fiber lasers: https://t.co/c8ZAD1LOBI @OpticaPubsGroup #OPG_Optica
We show it is possible to control inter-soliton interactions in a mode-locked fiber laser, using a single control knob, the laser gain.1/9
@photonPhillips Beautiful work! Congrats😀
After over a year in the works, our Perspective on the physics of #quantum light in complex media and its relevance to quantum technologies is published in @NaturePhysics!😀
Check it out: https://t.co/c5xKq2KLx9
Thank you @MeinzerNina for putting together this great issue!
A fantastic insight on complex optics published in @NaturePhysics, including a Perspective by our own @OhadLib and @BrombergYaron on "Quantum light in complex media and its applications".
Read the full Perspective here:
https://t.co/TY38hy7UrL
Check out our lab's new Twitter account!
Current status: the classical simulation of random quantum circuits experiments (historically a.k.a. 'quantum supremacy') is doable after all. https://t.co/QZptkckFWZ
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