@AlexKaraman2 @MauroDias13 @retributionx101 @mAlonzomiguel8 @CapturingChrist Scientist have not created something pit of nothing. Particles create themselves from nothing. Here's how they are imaging such quantum fluctuations. https://t.co/BfqKlCYctf
Applications. “Our results provide physical insight into the reorganization of phases across a QPT, with implications for any theoretical description. This paves a new route for future quantum information applications.”(QPT = quantum phase transitions). ht
QPTs. “The lateral dimension of these fluctuations grows towards criticality, offering a new measurable length scale.” https://t.co/NOHH3z8iLC
QPTs. “The fluctuations appear as telegraph-like noise with a range of characteristic times and a non-monotonic temperature dependence, revealing unexpected quantum granularity.” https://t.co/NOHH3z8iLC
Quantum origin. “We find fluctuations of the diamagnetic response in both space and time that survive well below the transition temperature, demonstrating their quantum nature.” https://t.co/NOHH3z8iLC
Visualization. “We use a scanning superconducting quantum interference device to image quantum fluctuations near the QPT from a superconductor to an insulator.” (QPT = quantum phase transitions). https://t.co/NOHH3z8iLC
Quantum phase transitions. “Although the presence of these fluctuations is well established, they have not been locally imaged in space, and their local dynamics has not been studied so far.” https://t.co/NOHH3z8iLC
Abrupt change. “A quantum phase transition (QPT) occurs between two competing phases of matter at zero temperature, driven by quantum fluctuations.” https://t.co/NOHH3z8iLC
@Honjo__Masamune @azadejoekar من رشتهم فیزیک نظری نیست، ولی در مورد ارزیابی تجربی نوسانات کوانتومی این موارد رو دیدم. ۱ https://t.co/jefUSn85Cj ۲ doi:10.1126/science.aad4655 موارد مرتبط دیگه هم هستن. ولی اینکه کدام پژوهش، شاهکلید حل این معما باشه نمیدو
RT @emulenews: Imaging quantum fluctuations near criticality https://t.co/rzZ4rPH98W https://t.co/gTzKjpDYtV
Imaging quantum fluctuations near criticality https://t.co/rzZ4rPH98W https://t.co/gTzKjpDYtV
New from #ERC_Research https://t.co/vW8RcQvGjZ Imaging quantum fluctuations near criticality
RT @NaturePhysics: Imaging quantum fluctuations near criticality https://t.co/efWWQPNNE5
RT @NaturePhysics: Imaging quantum fluctuations near criticality https://t.co/efWWQPNNE5
RT @NaturePhysics: Imaging quantum fluctuations near criticality https://t.co/efWWQPNNE5
RT @NaturePhysics: Imaging quantum fluctuations near criticality https://t.co/efWWQPNNE5
Imaging quantum fluctuations near criticality https://t.co/VhnDbqGIP0 via @NaturePhysics https://t.co/YB8045y5p9
RT @NaturePhysics: Imaging quantum fluctuations near criticality https://t.co/efWWQPNNE5
RT @NaturePhysics: Imaging quantum fluctuations near criticality https://t.co/efWWQPNNE5
Imaging quantum fluctuations near criticality https://t.co/efWWQPNNE5
Imaging quantum fluctuations near criticality https://t.co/odSW19OQrp https://t.co/s5j1bXYGdR
Imaging quantum fluctuations near criticality https://t.co/5PvzCiZcbN 走査型SQUIDによる量子揺らぎの可視化( ;・`д・´)ゴクリ