New! Sign up for our free email newsletter.
Reference Terms
from Wikipedia, the free encyclopedia

Quantum entanglement

Quantum entanglement is a quantum mechanical phenomenon in which the quantum states of two or more objects have to be described with reference to each other, even though the individual objects may be spatially separated. This leads to correlations between observable physical properties of the systems. For example, it is possible to prepare two particles in a single quantum state such that when one is observed to be spin-up, the other one will always be observed to be spin-down and vice versa, this despite the fact that it is impossible to predict, according to quantum mechanics, which set of measurements will be observed. As a result, measurements performed on one system seem to be instantaneously influencing other systems entangled with it. But quantum entanglement does not enable the transmission of classical information faster than the speed of light.

Quantum entanglement has applications in the emerging technologies of quantum computing and quantum cryptography, and has been used to realize quantum teleportation experimentally. At the same time, it prompts some of the more philosophically oriented discussions concerning quantum theory. The correlations predicted by quantum mechanics, and observed in experiment, reject the principle of local realism, which is that information about the state of a system should only be mediated by interactions in its immediate surroundings. Different views of what is actually occurring in the process of quantum entanglement can be related to different interpretations of quantum mechanics.

Related Stories
 

Matter & Energy News

February 5, 2026
This Ultra-thin Surface Controls Light in Two Completely Different Ways
Feb. 5, 2026 — A new metasurface design lets light of different spins bend, focus, and behave independently—while staying sharp across many colors. The trick combines two geometric phase effects so each spin channel can be tuned without interfering with the ...
A New Way to Control Light Could Boost Future Wireless Tech
Feb. 4, 2026 — A new optical device allows researchers to generate and switch between two stable, donut-shaped light patterns called skyrmions. These light vortices hold their shape even when disturbed, making them promising for wireless data transmission. Using a ...
New Catalyst Turns Carbon Dioxide Into Clean Fuel Source
Feb. 3, 2026 — Researchers have found that manganese, an abundant and inexpensive metal, can be used to efficiently convert carbon dioxide into formate, a potential hydrogen source for fuel cells. The key was a clever redesign that made the catalyst last far ...
A Tiny Light Trap Could Unlock Million Qubit Quantum Computers
Feb. 2, 2026 — A new light-based breakthrough could help quantum computers finally scale up. Stanford researchers created miniature optical cavities that efficiently collect light from individual atoms, allowing many qubits to be read at once. The team has already ...
Scientists Discover Hidden Geometry That Bends Electrons Like Gravity
Feb. 1, 2026 — Researchers have discovered a hidden quantum geometry inside materials that subtly steers electrons, echoing how gravity warps light in space. Once thought to exist only on paper, this effect has now been observed experimentally in a popular quantum ...
Weak Magnetism Causes Big Changes in a Strange State of Matter
Jan. 31, 2026 — A strange, glowing form of matter called dusty plasma turns out to be incredibly sensitive to magnetic fields. Researchers found that even weak fields can change how tiny particles grow, simply by nudging electrons into new motions. In lab ...
A Breakthrough That Could Make Ships Nearly Unsinkable
Jan. 30, 2026 — Researchers have found a way to make ordinary aluminum tubes float indefinitely, even when submerged for long periods or punched full of holes. By engineering the metal’s surface to repel water, the tubes trap air inside and refuse to sink, even ...
Scientists Use AI to Crack the Code of Nature’s Most Complex Patterns 1,000x Faster
Jan. 29, 2026 — Order doesn’t always form perfectly—and those imperfections can be surprisingly powerful. In materials like liquid crystals, tiny “defects” emerge when symmetry breaks, shaping everything ...
A Breakthrough That Turns Exhaust CO2 Into Useful Materials
Jan. 29, 2026 — Scientists have created a device that captures carbon dioxide and transforms it into a useful chemical in a single step. The new electrode works with realistic exhaust gases rather than requiring purified CO2. It converts the captured gas into ...
A Hidden Magnetic Order Could Unlock Superconductivity
Jan. 26, 2026 — Physicists have discovered that hidden magnetic order plays a key role in the pseudogap, a puzzling state of matter that appears just before certain materials become superconductors. Using an ultra-cold quantum simulator, the team found that even ...
Distant Entangled Atoms Acting as One Sensor Deliver Stunning Precision
Jan. 26, 2026 — Researchers have demonstrated that quantum entanglement can link atoms across space to improve measurement accuracy. By splitting an entangled group of atoms into separate clouds, they were able to measure electromagnetic fields more precisely than ...
Scientists Twist Tiny Crystals to Control Electricity
Jan. 25, 2026 — Researchers have developed a technique that allows them to carve complex three dimensional nanodevices directly from single crystals. To demonstrate its power, they sculpted microscopic helices from a magnetic material and found that the structures ...

Latest Headlines

updated 12:56 pm ET
more stories  

Breaking

this hour
this week

Strange & Offbeat Stories