Unlocking the Quantum Realm: A New Tool for Uncharted Phenomena
Predictions of quantum field theory experimentally confirmed for the first time. Entanglement is a quantum phenomenon where the properties of two or more particles become…
Predictions of quantum field theory experimentally confirmed for the first time. Entanglement is a quantum phenomenon where the properties of two or more particles become…
More stable clocks could measure quantum phenomena, including the presence of dark matter. The practice of keeping time relies on stable oscillations. In grandfather clocks,…
Quantum scientists have discovered a phenomenon in purple bronze that could be key to the development of a ‘perfect switch’ in quantum devices which flips…
Researchers have manipulated light to exhibit quantum backflow, a step towards understanding complex quantum mechanics and its practical applications in precision technologies. Scientists at the…
A collaborative research team has confirmed quantum spin liquid behavior in the material KYbSe2, validating a decades-old hypothesis. This breakthrough, significant for quantum computing and…
Quantum mechanics is a key physics theory that explains the unique behavior of atomic and subatomic particles, introducing revolutionary concepts like quantization and wave-particle duality….
Rice University study leverages chiral phonons for transformative quantum effect. Quantum materials hold the key to a future of lightning-speed, energy-efficient information systems. The problem…
Researchers using LIGO achieved a landmark in quantum squeezing. In 2015, the Laser Interferometer Gravitational-Wave Observatory, or LIGO, made history when it made the first…
A recent study employs advanced atomic-level computer simulations to predict the formation process of spin defects useful for quantum technologies. Researchers at the University of…
Physicists use superconductors to control spin waves on a chip, paving the way for energy-efficient tech and quantum computer advancements. Quantum physicists at Delft University…
Researchers at the Humboldt University of Berlin, partners of the DAALI project, have demonstrated a surprising effect present in the fluorescent light of a single…
Whenever measurement precision nears the uncertainty limit set by quantum mechanics, the results become dependent on the interaction dynamics between the measuring device and the…
Researchers have unveiled the spinaron effect, challenging traditional beliefs about magnetic interactions in quantum materials and potentially reshaping our understanding of theoretical quantum physics. Extreme…
Aalto University researchers will probe the secrets of dark matter using a quantum detector of unprecedented sensitivity. In the vast darkness of the cosmos lurks…
Scientists from the University of East Anglia have proposed a new way of using quantum light to ‘see’ quantum sound. A recent study recently published…
Using sound waves to control atomic vacancies could enhance communication technologies and provide novel control mechanisms for quantum computing. Acoustic resonators are everywhere. In fact,…
New technique accomplishes efficient recognition and real-time control of angular momentum modes. Rotating objects carry angular momentum; this fact extends even to the tiniest of…
Scientists have adapted the principles of large, unexpected oceanic rogue waves to a nanoscale, revealing potential applications in nano-manufacturing and medical insights, supported by mathematical…