JevaroWhat if...
By redefining a single word, the entire universe began to reveal its secrets?
Physics suddenly became simple and understandable?
Curious?
Hacker NewsQuantum dynamics on your laptop? New technique moves us closer
https://www.buffalo.edu/news/releases/2025/10/quantum-dynamics-on-your-laptop.html
#HackerNews #QuantumDynamics #LaptopTech #QuantumComputing #Innovation #ScienceNews
Zhian JiaQuantum Information Dynamics and Non-Equilibrium Physics
Seoul, 23 β 27 June 2025
Seoul, Korea
KilleansRow πΊπ² πΊπ¦πβ¦for those of us taking on certain kinds of challenges involving macroscopic #QuantumDynamics and Information we need
#SchrΓΆdinger both for mapping from classical states (simulation) and for capturing quantum behavior (superposition, entanglement).Treating the wave function as real has certain benefits in practice.
Inherent in that there is (call us droll, parochial even)also a certain discomfort with #MadDogEverettianism for ignoring a huge and eternal singularity-
#SchrΓΆdinger both for mapping from classical states (simulation) and for capturing quantum behavior (superposition, entanglement).Treating the wave function as real has certain benefits in practice.
Inherent in that there is (call us droll, parochial even)also a certain discomfort with #MadDogEverettianism for ignoring a huge and eternal singularity-
EnablaProf. Jens H Bardarson from the KTH Royal Institute of Technology discusses the concept of the information lattice, offering a framework for studying quantum dynamics, phases, and phase transitions in static quantum systems and circuit setups.
The lecture, part of the recent Nordita School, is now available on Enabla in #OpenAccess. Join our in-time discussions and ask your questions to engage with the content and deepen your understanding of these advanced topics.
π Watch here: https://enabla.com/pub/1116/about
hewiak#quantumdynamics is now a thing.
https://phys.org/news/2022-12-quantum-processor-reveals-bound-states.html
https://phys.org/news/2022-12-quantum-processor-reveals-bound-states.html
Quantum processor reveals bound states of photons hold strong even in the midst of chaos
Researchers have used a quantum processor to make microwave photons uncharacteristically sticky. They coaxed them to clump together into bound states, then found that these photon clusters survived in a regime where they were expected to dissolve into their usual, solitary states. The discovery was first made on a quantum processor, marking the growing role that these platforms are playing in studying quantum dynamics.