New #quantum paper out 😀📢 🚀 :
Read on the the impact of distinguishability and mixedness of #quantumstates on quantum #interference here 📢: https://t.co/PVb2tV0srm
or more here 📢:
https://t.co/NGhCMzrRry
Superconducting nanowire single photon detectors have really great timing resolution - what if we use this to mitigate errors in photonic quantum information processing? You can get high fidelity operations, even from distinguishable photons ⏲️🟥🟦
I've just uploaded YouTube videos for an undergrad course I taught on complex analysis @BristolUniPhys
Better that they see the light of day than sit unused on my computer - please share if you think they're useful!
Videos here: https://t.co/AUbGyC60Gm
Today: new insights into how distinguishability and mixedness affect #quantum interference!
Including a nice and intuitive picture of what's going on!
Check out our new paper on the #arXiv
https://t.co/Cxel31CEt4
with @Uni_Stuttgart@QETLabsBristol@MitQpg@IQSTpress
We came up with a photon-machine-gun-esque protocol for generating qudit GHZ states of photons using d spin-photon interfaces. The spins do not need to interact and it's robust against photon distinguishability errors https://t.co/1vs7LYuPqu
I'm so excited to share our new paper! https://t.co/W2b7U93iMC
There has be a lot great experimental and theoretical work around on Gaussian Boson Sampling #quantum advantage recently. We find some much faster simulation methods for this problem.
Kick-start your weekend by coming along to mark the publication of The Oxford Guide to Middle High German! At 4.30pm here @TAYOxford, it's free, and all welcome.
Lots of exciting hands-on activities today at the ATOM Science Market. Come and say hello to our researchers on the Particle Physics and Optics Society stalls. #ATOM18@OxOPS@g7vdj#abingdon