The strange fact that the FQH exitations are neither fermions nor bosons, but are something in between ('anyons'), has been theoretically known since the early 1980s, but its direct experimental demonstration through interferometry took 40 years to succeed
RT @quantumVerd: The long-promised observation of anyonic braiding in topological quantum materials has finally been achieved! 🤯😲 Exciting…
I really like this paper. We published work on braiding anyons using a Fabry-Perot interferometer a few years ago (https://t.co/oeZ7bhsTQ2) but the Fabry-Perot device has some important advantages that might help the field reach a regime where non-abelian
RT @AndreasAtETH: Some background on the new work on the #fractional #quantum #Hall effect just made available @arXiv. https://t.co/GCvjMCc…
"Direct observation of anyonic braiding statistics" See https://t.co/XVIdROohKY
RT @Dragonmaurizio: The 3d kingdom of quasiparticles. #Anyons aren’t like ordinary elementary particles, albeit scientists will never be ab…
RT @Dragonmaurizio: The 3d kingdom of quasiparticles. #Anyons aren’t like ordinary elementary particles, albeit scientists will never be ab…
The 3d kingdom of quasiparticles. #Anyons aren’t like ordinary elementary particles, albeit scientists will never be able to isolate one from the system where it forms, the existence of anyons has been proved twice in 2020. https://t.co/KORnSpeZIl https://
RT @dcastelvecchi: @NatureNews Note: My story on braided quantum states (which is linked to in our review of 2020) was based on a preprint,…
RT @dcastelvecchi: @NatureNews Note: My story on braided quantum states (which is linked to in our review of 2020) was based on a preprint,…
@NatureNews Note: My story on braided quantum states (which is linked to in our review of 2020) was based on a preprint, but the paper was subsequently published in @naturephysics https://t.co/HszPCgZbwt
Now I'm trying to get through this paper because of him https://t.co/DdRfMn3x8o
RT @dcastelvecchi: @NatRevPhys @NaturePhysics And 2. The best evidence yet for anyons, the particles that are neither fermions nor bosons…
RT @dcastelvecchi: @NatRevPhys @NaturePhysics And 2. The best evidence yet for anyons, the particles that are neither fermions nor bosons…
RT @dcastelvecchi: @NatRevPhys @NaturePhysics And 2. The best evidence yet for anyons, the particles that are neither fermions nor bosons…
@NatRevPhys @NaturePhysics And 2. The best evidence yet for anyons, the particles that are neither fermions nor bosons (see our coverage here: https://t.co/qtkHTbRSYd ) https://t.co/HszPCgZbwt
Mañana tenemos una defensa de TFG sobre anyones (cuya existencia se demostró en junio de este año) 🤩
RT @GastonGiribet: Los anyones son cuasipartículas que, a diferencia de fermiones y bosones, tienen estadística fraccionaria: Cuando se int…
Los anyones son cuasipartículas que, a diferencia de fermiones y bosones, tienen estadística fraccionaria: Cuando se intercambian dos de ellas pueden adquirir cualquier (any) fase. Este paper reporta su observación en el fractional quantum Hall state ν=1/3
التي تحافظ على "ذاكرة" تفاعلاتها مع أشباه الجسيمات الأخرى عن طريق إحداث تغييرات في الطور الميكانيكي الكمومي . تفاصيل أكثر : https://t.co/RrD1c2o0gT
Info: https://t.co/KORnSoXojL
RT @NaturePhysics: Direct observation of anyonic braiding statistics https://t.co/D24QLVWWBy
RT @MBarkeshli: Amazing work! Experimental evidence for fractional quantum statistics https://t.co/q3XMRqKD29 by measuring interference pat…
RT @NatureNano: It is out now @NaturePhysics - anyonic braiding statistics in experiment
RT @NatureNano: It is out now @NaturePhysics - anyonic braiding statistics in experiment https://t.co/r9LZcWmi8Y
It is out now @NaturePhysics - anyonic braiding statistics in experiment
Direct observation of anyonic braiding statistics https://t.co/zftFJrZR4e
RT @NaturePhysics: Direct observation of anyonic braiding statistics https://t.co/D24QLVWWBy
Direct observation of anyonic braiding statistics https://t.co/WPHnJjHaf8
RT @David_Abergel: We've just published this _really_ cool paper at @NaturePhysics It's the first observation of braiding anyons. This i…
RT @David_Abergel: We've just published this _really_ cool paper at @NaturePhysics It's the first observation of braiding anyons. This i…
RT @NaturePhysics: Direct observation of anyonic braiding statistics https://t.co/D24QLVWWBy
RT @NaturePhysics: Direct observation of anyonic braiding statistics https://t.co/D24QLVWWBy
RT @NaturePhysics: Direct observation of anyonic braiding statistics https://t.co/D24QLVWWBy
RT @NaturePhysics: Direct observation of anyonic braiding statistics https://t.co/D24QLVWWBy
RT @David_Abergel: We've just published this _really_ cool paper at @NaturePhysics It's the first observation of braiding anyons. This i…
Direct observation of anyonic braiding statistics https://t.co/D24QLVWWBy
RT @David_Abergel: We've just published this _really_ cool paper at @NaturePhysics It's the first observation of braiding anyons. This i…
RT @David_Abergel: We've just published this _really_ cool paper at @NaturePhysics It's the first observation of braiding anyons. This i…
RT @David_Abergel: We've just published this _really_ cool paper at @NaturePhysics It's the first observation of braiding anyons. This i…
We've just published this _really_ cool paper at @NaturePhysics It's the first observation of braiding anyons. This is a huge technical achievement, but if one could brain non-abelian anyons then topogical quantum computation becomes a possibility! htt
RT @PurdueQuantum: Exciting work from Prof. Manfra’s group! https://t.co/kfngVsmgiG
RT @MSFTQuantum: For advanced #QuantumComputing readers, dive into the paper describing the braiding effect giving evidence of anyons: http…
RT @MSFTQuantum: For advanced #QuantumComputing readers, dive into the paper describing the braiding effect giving evidence of anyons: http…
RT @MSFTQuantum: For advanced #QuantumComputing readers, dive into the paper describing the braiding effect giving evidence of anyons: http…
RT @PurdueQuantum: Exciting work from Prof. Manfra’s group!
Exciting work from Prof. Manfra’s group!
RT @MSFTQuantum: For advanced #QuantumComputing readers, dive into the paper describing the braiding effect giving evidence of anyons: http…
RT @MSFTQuantum: For advanced #QuantumComputing readers, dive into the paper describing the braiding effect giving evidence of anyons: http…
RT @MSFTQuantum: For advanced #QuantumComputing readers, dive into the paper describing the braiding effect giving evidence of anyons: http…
RT @MSFTQuantum: For advanced #QuantumComputing readers, dive into the paper describing the braiding effect giving evidence of anyons: http…
RT @MSFTQuantum: For advanced #QuantumComputing readers, dive into the paper describing the braiding effect giving evidence of anyons: http…
RT @MSFTQuantum: For advanced #QuantumComputing readers, dive into the paper describing the braiding effect giving evidence of anyons: http…
RT @MSFTQuantum: For advanced #QuantumComputing readers, dive into the paper describing the braiding effect giving evidence of anyons: http…
RT @MSFTQuantum: For advanced #QuantumComputing readers, dive into the paper describing the braiding effect giving evidence of anyons: http…
RT @MSFTQuantum: For advanced #QuantumComputing readers, dive into the paper describing the braiding effect giving evidence of anyons: http…
RT @MSFTQuantum: For advanced #QuantumComputing readers, dive into the paper describing the braiding effect giving evidence of anyons: http…
RT @MSFTQuantum: For advanced #QuantumComputing readers, dive into the paper describing the braiding effect giving evidence of anyons: http…
RT @MSFTQuantum: For advanced #QuantumComputing readers, dive into the paper describing the braiding effect giving evidence of anyons: http…
RT @MSFTQuantum: For advanced #QuantumComputing readers, dive into the paper describing the braiding effect giving evidence of anyons: http…
RT @MSFTQuantum: For advanced #QuantumComputing readers, dive into the paper describing the braiding effect giving evidence of anyons: http…
RT @MSFTQuantum: For advanced #QuantumComputing readers, dive into the paper describing the braiding effect giving evidence of anyons: http…
RT @MSFTQuantum: For advanced #QuantumComputing readers, dive into the paper describing the braiding effect giving evidence of anyons: http…
Me about to read #QuantumComputing articles and papers: https://t.co/JzkYBxPkLV
RT @MSFTQuantum: For advanced #QuantumComputing readers, dive into the paper describing the braiding effect giving evidence of anyons: http…
For advanced #QuantumComputing readers, dive into the paper describing the braiding effect giving evidence of anyons: https://t.co/6sIoPMwasQ
RT @MBarkeshli: Amazing work! Experimental evidence for fractional quantum statistics https://t.co/q3XMRqKD29 by measuring interference pat…
@condensed_the Do you think Nakamura et al. (https://t.co/dUEJKKi9Gc) got us any closer to #TQB/#TQC? cc: @johncarlosbaez
In condensed matter physics, a single device is taken as sufficient proof to claim the observation of a new effect. But what to do when, even in that single device, reproducibility is challenging? Is a single repetition of the measurement enough? https://t
@condensed_the This new paper says they were able to braid anyons. This must be relevant to TQC, right? https://t.co/352uOagPfi https://t.co/VaFDg27U39
See the paper/preprint in which the observation of braiding is described: https://t.co/RYroL9Qlt1
RT @MBarkeshli: Amazing work! Experimental evidence for fractional quantum statistics https://t.co/q3XMRqKD29 by measuring interference pat…
Direct observation of anyonic braiding statistics at the ν=1/3 fractional quantum Hall state https://t.co/gzsgq10hJx
Direct observation of anyonic braiding statistics at the ν=1/3 fractional quantum Hall state https://t.co/SjtOYwISEU
WTF is this particle? 😳 Direct observation of anyonic braiding statistics at the ν=1/3 fractional quantum Hall state https://t.co/LZ8NiZHrJp
RT @Kyukimasa: エニオン網組みの1/3分数量子ホール効果を直接観察 https://t.co/kj8A5WiZ4k 唐突にドリームキャスト https://t.co/hkuaqs02ZG
RT @Kyukimasa: エニオン網組みの1/3分数量子ホール効果を直接観察 https://t.co/kj8A5WiZ4k 唐突にドリームキャスト https://t.co/hkuaqs02ZG
RT @Kyukimasa: エニオン網組みの1/3分数量子ホール効果を直接観察 https://t.co/kj8A5WiZ4k 唐突にドリームキャスト https://t.co/hkuaqs02ZG
RT @Kyukimasa: エニオン網組みの1/3分数量子ホール効果を直接観察 https://t.co/kj8A5WiZ4k 唐突にドリームキャスト https://t.co/hkuaqs02ZG
RT @Kyukimasa: エニオン網組みの1/3分数量子ホール効果を直接観察 https://t.co/kj8A5WiZ4k 唐突にドリームキャスト https://t.co/hkuaqs02ZG
RT @Kyukimasa: エニオン網組みの1/3分数量子ホール効果を直接観察 https://t.co/kj8A5WiZ4k 唐突にドリームキャスト https://t.co/hkuaqs02ZG
RT @Kyukimasa: エニオン網組みの1/3分数量子ホール効果を直接観察 https://t.co/kj8A5WiZ4k 唐突にドリームキャスト https://t.co/hkuaqs02ZG
エニオン網組みの1/3分数量子ホール効果を直接観察 https://t.co/kj8A5WiZ4k 唐突にドリームキャスト https://t.co/hkuaqs02ZG
Direct observation of anyonic braiding statistics at the ν=1/3 fractional quantum Hall state https://t.co/Pnle0JkTkq
@dcastelvecchi Indeed, that is where we end up at the present day! I tweeted about it when the paper first came out on arxiv: https://t.co/7gVf2kqmGZ
RT @MBarkeshli: Amazing work! Experimental evidence for fractional quantum statistics https://t.co/q3XMRqKD29 by measuring interference pat…
This is cool - https://t.co/UDe00vmB2p
https://t.co/IOclYJWs5h direct observation of ANYONS??
Parece que descobriram experimentalmente anyons no efeito Hall fracionário (\nu = 1/3)! Logo mais, mais um mini-thread: https://t.co/wlzDNLg72m
the sauce, for the curious https://t.co/SUWFDpwsCY As usual, the particular approach here has yet to be replicated, and caution is advised until it is 🙃
RT @MBarkeshli: Amazing work! Experimental evidence for fractional quantum statistics https://t.co/q3XMRqKD29 by measuring interference pat…
Beautiful work indeed
RT @quantumVerd: The long-promised observation of anyonic braiding in topological quantum materials has finally been achieved! 🤯😲 Exciting…