Spintronics Research News
November 23, 2025
Top Headlines
Nov. 20, 2025 New research shows that light’s magnetic field is far more influential than scientists once believed. The team found that this magnetic component significantly affects how light rotates as it passes through certain materials. Their work challenges ...
Nov. 19, 2025 Researchers created scalable quantum circuits capable of simulating fundamental nuclear physics on more than 100 qubits. These circuits efficiently prepare complex initial states that classical computers cannot handle. The achievement demonstrates a ...
Nov. 17, 2025 A Princeton team built a new tantalum-silicon qubit that survives for over a millisecond, far surpassing today’s best devices. The design tackles surface defects and substrate losses that have limited transmon qubits for years. Easy to integrate ...
Nov. 11, 2025 UC Santa Barbara physicists have engineered entangled spin systems in diamond that surpass classical sensing limits through quantum squeezing. Their breakthrough enables next-generation quantum sensors that are powerful, compact, and ready for ...
Nov. 9, 2025 Stanford scientists found that strontium titanate improves its performance when frozen to near absolute zero, showing extraordinary optical and mechanical behavior. Its nonlinear and piezoelectric ...
Oct. 8, 2025 In a remarkable leap for quantum physics, researchers in Japan have uncovered how weak magnetic fields can reverse tiny electrical currents in kagome metals—quantum materials with a woven atomic structure that frustrates electrons into forming ...
Oct. 7, 2025 An international team has confirmed that large quantum systems really do obey quantum mechanics. Using Bell’s test across 73 qubits, they proved the presence of genuine quantum correlations that can’t be explained classically. Their results show ...
Oct. 7, 2025 Researchers at Columbia have created a chip that turns a single laser into a “frequency comb,” producing dozens of powerful light channels at once. Using a special locking mechanism to clean ...
Oct. 4, 2025 Scientists at OIST have, for the first time, directly tracked the elusive “dark excitons” inside atomically thin materials. These quantum particles could revolutionize information technology, as they are more stable and resistant to ...
Sep. 28, 2025 Diraq has shown that its silicon-based quantum chips can maintain world-class accuracy even when mass-produced in semiconductor foundries. Achieving over 99% fidelity in two-qubit operations, the breakthrough clears a major hurdle toward ...
Sep. 26, 2025 Penn engineers have taken quantum networking from the lab to Verizon’s live fiber network, using a silicon “Q-chip” that speaks the same Internet Protocol as the modern web. The system pairs classical and quantum signals like a train engine ...
Sep. 25, 2025 Caltech scientists have built a record-breaking array of 6,100 neutral-atom qubits, a critical step toward powerful error-corrected quantum computers. The qubits maintained long-lasting superposition and exceptional accuracy, even while being moved ...
Latest Headlines
updated 4:32pm EST
Nov. 19, 2025 Researchers have found a way to make “dark excitons”—normally invisible quantum states of light—shine dramatically brighter by trapping them inside a tiny gold-nanotube optical cavity. This ...
Nov. 17, 2025 Electrons can freeze into strange geometric crystals and then melt back into liquid-like motion under the right quantum conditions. Researchers identified how to tune these transitions and even ...
Nov. 5, 2025 USC researchers built artificial neurons that replicate real brain processes using ion-based diffusive memristors. These devices emulate how neurons use chemicals to transmit and process signals, ...
Oct. 16, 2025 Auburn scientists have designed new materials that manipulate free electrons to unlock groundbreaking applications. These “Surface Immobilized Electrides” could power future quantum computers or ...
Sep. 21, 2025 Researchers at UNSW have found a way to make atomic nuclei communicate through electrons, allowing them to achieve entanglement at scales used in today’s computer chips. This breakthrough brings ...
Sep. 18, 2025 Scientists at Michigan State University have discovered how to use ultrafast lasers to wiggle atoms in exotic materials, temporarily altering their electronic behavior. By combining cutting-edge ...
Sep. 14, 2025 Scientists in Korea have engineered magnetic nanohelices that can control electron spin with extraordinary precision at room temperature. By combining structural chirality and magnetism, these ...
Sep. 13, 2025 Scientists have finally unlocked a way to identify the elusive W state of quantum entanglement, solving a decades-old problem and opening paths to quantum teleportation and advanced quantum ...
Sep. 5, 2025 A hidden quantum geometry that distorts electron paths has finally been observed in real materials. This “quantum metric,” once thought purely theoretical, may revolutionize electronics, ...
Sep. 2, 2025 Scientists in Japan have uncovered a strange new behavior in “heavy” electrons — particles that act as if they carry far more mass than usual. These electrons were found to be entangled, ...
Earlier Headlines
Aug. 25, 2025 Scientists have discovered that electron spin loss, long considered waste, can instead drive magnetization switching in spintronic devices, boosting efficiency by up to three times. The scalable, ...
Aug. 22, 2025 A research team has created a quantum logic gate that uses fewer qubits by encoding them with the powerful GKP error-correction code. By entangling quantum vibrations inside a single atom, they ...
Aug. 29, 2025 Rice University physicists confirmed that flat electronic bands in kagome superconductors aren’t just theoretical, they actively shape superconductivity and magnetism. This breakthrough could guide ...
Aug. 24, 2025 Defects in spintronic materials, once seen as limitations, may now be key to progress. Chinese researchers discovered that imperfections can enhance orbital currents, unlocking more efficient, ...
Aug. 27, 2025 While superconducting qubits are great at fast calculations, they struggle to store information for long periods. A team at Caltech has now developed a clever solution: converting quantum information ...
Aug. 23, 2025 Scientists may have uncovered the missing piece of quantum computing by reviving a particle once dismissed as useless. This particle, called the neglecton, could give fragile quantum systems the full ...
July 25, 2025 Researchers at Harvard have created a groundbreaking metasurface that can replace bulky and complex optical components used in quantum computing with a single, ultra-thin, nanostructured layer. This ...
Aug. 11, 2025 Scientists have found that microscopic gold clusters can act like the world’s most accurate quantum systems, while being far easier to scale up. With tunable spin properties and mass production ...
July 20, 2025 Researchers at the University of Minnesota Twin Cities have made a promising breakthrough in memory technology by using a nickel-tungsten alloy called Ni₄W. This material shows powerful magnetic ...
July 17, 2025 Using advanced metasurfaces, researchers can now twist light to uncover hidden images and detect molecular handedness, potentially revolutionizing data encryption, biosensing, and drug ...
July 28, 2025 Quantum computing may one day outperform classical machines in solving certain complex problems, but when and how this “quantum advantage” emerges has remained unclear. Now, researchers from ...
July 2, 2025 A multinational team has cracked a long-standing barrier to reliable quantum computing by inventing an algorithm that lets ordinary computers faithfully mimic a fault-tolerant quantum circuit built ...
June 25, 2025 Chalmers engineers built a pulse-driven qubit amplifier that’s ten times more efficient, stays cool, and safeguards quantum states—key for bigger, better quantum ...
June 26, 2025 Quantum computing just got a significant boost thanks to researchers at the University of Osaka, who developed a much more efficient way to create "magic states" a key component for ...
June 20, 2025 Scientists at UBC have devised a chip-based device that acts as a "universal translator" for quantum computers, converting delicate microwave signals to optical ones and back with minimal ...
June 30, 2025 A research team has achieved the holy grail of quantum computing: an exponential speedup that’s unconditional. By using clever error correction and IBM’s powerful 127-qubit processors, they ...
June 18, 2025 Once a global leader in chipmaking, the U.S. now lags behind. Sandia National Laboratories is spearheading a strategic comeback by joining a powerful new coalition the National Semiconductor ...
June 12, 2025 In a bold challenge to silicon s long-held dominance in electronics, Penn State researchers have built the world s first working CMOS computer entirely from atom-thin 2D materials. Using molybdenum ...
June 12, 2025 A team of Danish and German scientists has launched a major project to create new technology that could form the foundation of the future quantum internet. They re using a rare element called erbium ...
June 10, 2025 Physicists at the University of Oxford have set a new global benchmark for the accuracy of controlling a single quantum bit, achieving the lowest-ever error rate for a quantum logic operation--just ...
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Monday, June 30, 2025
Wednesday, June 18, 2025
Thursday, June 12, 2025
- Atom-Thin Tech Replaces Silicon in the World’s First 2D Computer
- Scientists Just Took a Big Step Toward the Quantum Internet
Tuesday, June 10, 2025
Friday, June 6, 2025
Sunday, June 8, 2025
Saturday, August 16, 2025
Thursday, May 29, 2025
Wednesday, May 28, 2025
Friday, May 23, 2025
- Quantum Eyes on Energy Loss: Diamond Quantum Imaging for Next-Gen Power Electronics
- New Biosensor Solves Old Quantum Riddle
Thursday, May 22, 2025
Wednesday, May 21, 2025
- Scientists Discover Class of Crystals With Properties That May Prove Revolutionary
- Nano-Engineered Thermoelectrics Enable Scalable, Compressor-Free Cooling
- Achieving a Record-High Curie Temperature in Ferromagnetic Semiconductor
- Mind the Band Gap! -- Researchers Create New Nanoscale Forms of Elementary Semiconductor With Tunable Electronic Properties
Monday, May 19, 2025
Friday, May 9, 2025
Thursday, May 8, 2025
Tuesday, May 6, 2025
- Ultra-Thin Bismuth Holds Unexpected Promise for Green Electronics
- Experimental Quantum Communications Network
Monday, May 5, 2025
- A New Method for Characterizing Quantum Gate Errors
- BESSY II: Insight Into Ultrafast Spin Processes With Femtoslicing
Wednesday, April 30, 2025
Friday, April 25, 2025
- Hidden Mechanisms in Next-Generation AI Memory Device
- Physicists Uncover Hidden Order in the Quantum World Through Deconfined Quantum Critical Points
Wednesday, April 23, 2025
- New Electronic 'skin' Could Enable Lightweight Night-Vision Glasses
- Crystal Clear Design for High-Performance Flexible Thermoelectric Semiconductor
Monday, April 21, 2025
Friday, April 18, 2025
- Pushing Boundaries: Detecting the Anomalous Hall Effect Without Magnetization in a New Class of Materials
- Scientists Uncover Quantum Surprise: Matter Mediates Ultrastrong Coupling Between Light Particles
Thursday, April 17, 2025
- Researchers Demonstrate New Class of Quantum Materials That Are Both Metallic and One-Dimensional
- Curved Neutron Beams Could Deliver Benefits Straight to Industry
Wednesday, April 16, 2025
Tuesday, April 15, 2025
Friday, April 11, 2025
- Light That Spirals Like a Nautilus Shell
- A New Era in Materials Science: Antiferromagnetic Quasicrystals Unveiled
Thursday, April 10, 2025
Tuesday, April 8, 2025
Monday, April 7, 2025
Wednesday, April 2, 2025
- A New Wave in Ultrafast Magnetic Control
- Scientists Merge Two 'impossible' Materials Into New Artificial Structure
Friday, March 28, 2025
Thursday, March 27, 2025
- Physicists Discover a Copper-Free High-Temperature Superconducting Oxide
- Researchers Find a Way to Shield Quantum Information from 'noise'
Wednesday, March 26, 2025
- Mini Rolling Robot Takes Virtual Biopsies
- Entangled in Self-Discovery: Quantum Computers Analyze Their Own Entanglement
Tuesday, March 25, 2025
- BESSY II: Magnetic 'microflowers' Enhance Local Magnetic Fields
- New Type of Quantum Computer Studies the Dance of Elementary Particles
- Listen to Quantum Atoms Talk Together Thanks to Acoustics
Friday, March 21, 2025
Wednesday, March 19, 2025
- Quantum Heat Dynamics Toggled by Magnetic Fields
- Good Vibrations: Scientists Discover a Groundbreaking Method for Exciting Phonon-Polaritons
- Squirrel-Inspired Leaping Robot Can Stick a Landing on a Branch
- Record-Breaking 12,900 Km Ultra-Secure Quantum Satellite Link
Friday, March 14, 2025
Thursday, March 13, 2025
- Spinning, Twisted Light Could Power Next-Generation Electronics
- Reading Magnetic States Faster -- In Far Infrared
Wednesday, March 12, 2025
Tuesday, March 11, 2025
Monday, March 10, 2025
Wednesday, March 5, 2025
Tuesday, March 4, 2025
Thursday, February 27, 2025
- New Ocelot Chip Makes Strides in Quantum Computing
- Quantum Interference in Molecule-Surface Collisions
- Unraveling the Origin of Extremely Bright Quantum Emitters
- Cracking the Code on Solid-State Batteries
Wednesday, February 26, 2025
- New Low-Cost Challenger to Quantum Computer: Ising Machine
- Multiplexing Entanglement in a Quantum Network
Tuesday, February 25, 2025
- Mesoporous Silicon: Semiconductor With New Talents
- Breakthrough in High-Sensitivity Quantum Sensors With Diamond Heteroepitaxy
- Materials Incorporated Into Quantum Qubit Platform
Friday, February 21, 2025
Thursday, February 20, 2025
Wednesday, February 19, 2025
- Magnetic Semiconductor Preserves 2D Quantum Properties in 3D Material
- Magnetic Switch Traps Quantum Information Carriers in One Dimension