Frozen Electrons Come to Life in Groundbreaking Princeton Study
Princeton University researchers detect a strange form of matter that has eluded direct detection for some 90 years. Electrons—these infinitesimally small particles that are known…
Princeton University researchers detect a strange form of matter that has eluded direct detection for some 90 years. Electrons—these infinitesimally small particles that are known…
A novel quantum state, “hybrid topology,” was discovered in arsenic crystals by Princeton scientists, merging edge and surface states in a unique quantum behavior. This…
New research expands opportunities for advancements in quantum physics and spintronics. In a novel experiment, physicists have observed long-range quantum coherence effects due to Aharonov-Bohm…
Princeton’s advanced AI chip project, backed by DARPA and EnCharge AI, promises significant improvements in energy efficiency and computing power, aiming to revolutionize AI’s accessibility…
A Princeton-led team has developed an AI model to predict and avert plasma instabilities in fusion reactors, showcasing real-time control improvements and setting the stage…
In the pursuit of attaining a climate-neutral impact, numerous businesses are opting to purchase extra electricity from renewable energy sources. This strategy aims to counteract…
With a quick pulse of light, researchers can now find and erase errors in real time. Researchers have developed a method that can reveal the…
New research challenges the conventional wisdom regarding superconducting quantum transitions. Princeton physicists have discovered an abrupt change in quantum behavior while experimenting with a three-atom-thin…
A new study investigates the transfer of information between neurons. Do we really know how the brain works? In recent decades, significant advancements have been…
A team of Princeton astrophysicists has now determined conclusively that energy close to black hole M87* is pushing outward, not inward, a longstanding debate within…
In work that could lead to more robust quantum computing, Princeton researchers have succeeded in forcing molecules into quantum entanglement. For the first time, a…
Recent research shows that proteins’ intrinsically disordered regions (IDRs) are critical for chromatin regulation and gene expression. Mutations in these IDRs affect cellular functions, especially…
Lithium, an essential element in electric vehicle batteries and energy storage systems, holds promise for a greener future. However, its production carries notable environmental implications….
A new atomic device sends high-fidelity quantum information over fiber optic networks. Researchers have unveiled a new way to connect quantum devices over long distances,…
New study captures the behavior of interacting electrons that give rise to insulating states, addressing a key unsolved puzzle in the field. Princeton-led researchers have…
A new study connects seawater chemical shifts to volcanic activity and climate. Sea salt hides a secret: tiny droplets of the seawater from which it…
Bonnie Bassler and her research team have discovered that a multitude of viruses respond to quorum sensing, as well as other bacterial chemical signals. Viruses,…
Princeton researchers used data from NASA’s Parker Solar Probe to deduce that a catastrophic event likely created the prolific Geminids meteoroid stream. Unlike most meteor…