Quantum Oscillators Find a Shared Beat
Author(s): Jamir MarinoThe synchronization of two quantum oscillators reveals a collective rhythm encoded solely in their correlations.[Physics 19, 93] Published Mon Jun 29, 2026
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Author(s): Jamir MarinoThe synchronization of two quantum oscillators reveals a collective rhythm encoded solely in their correlations.[Physics 19, 93] Published Mon Jun 29, 2026
Insider Brief PRESS RELEASE — Scientists at the University of California, Riverside are making breakthroughs in understanding how quantum wave functions move across ultra-thin mate...
Author(s): Gal ShavitA new experiment probes the quantum geometry of electronic wave functions involved in a nonlinear Hall response.[Physics 19, 83] Published Mon Jun 15, 2026
Author(s): Ryan WilkinsonAtomic-scale measurements show that vibrational excitations can cause electrons to move in bunches.[Physics 19, s75] Published Wed Jun 10, 2026
Scientists at RIKEN have proposed a new way to make quantum systems synchronize in only one direction—like a one-way street for sound particles known as phonons. The breakthrough c...
Author(s): Aziza AlmanaklyTwo independent groups have demonstrated ways to entangle quantum bits without the need for precisely timed control pulses.[Physics 19, 91] Published Mon...
Hydrogen switches between quantum-wave and classical-particle behavior in vanadium, revealing how crystal symmetry controls tunneling for energy materials.
An experiment with a toy universe made up of extremely cold atoms shows how time can emerge from quantum interactions, instead of existing by default
A quantum “mini universe” made from ultracold atoms revealed that time can emerge from entropy changes inside a system, offering experimental insight into one of physics’ deepest m...
Researchers investigate how quantum time flow can be stretched, blurred, or even reversed. What if the direction of time isn’t as fixed as it seems? While our everyday experience t...
Researchers have created quantum control techniques that can make a system appear to run backward in time. By precisely managing quantum measurements, they can reshape the system's...
Dmitri Tymoczko pointed me to this article by John Baez explaining general relativity. I replied that this seems like some very important stuff, but I’m devoting all of that part o...
New experimental evidence demonstrates that discrete space-time crystals can be realized in classical soft-matter systems, thereby moving beyond the traditional complexities of qua...
Quantum physicists have uncovered a bizarre phenomenon in which photons appear to spend a “negative” amount of time interacting with atoms before emerging from a cloud of matter. A...
By extending attosecond interferometry into the quantum domain, researchers have revealed how ultrafast laser–matter interactions encode detailed quantum optical information The po...
Daniel Harlow, general relativity, holographic principle, entanglement, wormhole, Preskill, quantum computing, qubit, Quantum Error Correction, https://www.quantamagazine.org/entan...
Author(s): Sophia ChenUsing atoms in two different highly excited states enables quantum bits that are both long-lived and manipulable.[Physics 19, s63] Published Wed May 20, 2026
Scientists used swirling water waves to simulate a quantum effect, uncovering rotating nodal patterns that could deepen understanding of hidden quantum phenomena. In the strange wo...
To keep communications secure in a post-quantum world, cryptographers are digging down into the concept of cause and effect.
Researchers at ETH Zurich have engineered a hardware architecture for quantum computers that separates processing from working memory by utilizing mechanical vibrations instead of...
A new study shows that time-variations in tailored materials can reproduce the physics of ultrafast rotating bodies, enabling selective amplification of electromagnetic waves.
A new study shows that time-variations in tailored materials can reproduce the physics of ultrafast rotating bodies, enabling selective amplification of electromagnetic waves.
Quantum themes are now everywhere—from multiverse plots to Schrödinger’s cat, the famous paradox of a cat that is both alive and dead until observed. This surge in storytelling isn...
Scientists have directly watched angular momentum move through a crystal for the very first time — and discovered a bizarre twist along the way. Using ultra-powerful terahertz lase...
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