Quantum entanglement is a phenomenon in which two or more quantum systems become connected in such a way that the properties of one system affect the properties of the other(s) even when separated by large distances. This connection occurs when two quantum systems, such as particles or atoms, interact and become “entangled” in a way that classical physics cannot describe.

Quantum entanglement is used in a variety of ways in modern technology and research. One of the most well-known uses is quantum computing, where entanglement is used to perform certain types of computations much faster than is possible with classical computers. Additionally, entangled particles can be used in quantum teleportation, a process by which the properties of one particle can be instantaneously transferred to another particle, even if they are separated by large distances.

Quantum entanglement is also used in quantum cryptography, which is a method of secure communication that uses the properties of entangled particles to protect the information being transmitted. In addition, the phenomenon of quantum entanglement plays a key role in the field of quantum mechanics and is still the subject of much research and study in the field of physics.

Recently physicist Brookhaven National Laboratory (BNL) discovered a new type of quantum entanglement. This new type of entanglement was discovered in experiments involving the acceleration and collision of ions of gold. It allows scientists to peer inside atomic nuclei more closely than ever before.

In summary, quantum entanglement is a phenomenon in which two or more quantum systems become connected in a way that classical physics cannot describe. It is used in quantum computing, teleportation, and cryptography and is a key concept in the field of quantum mechanics and ongoing research. And the new discovery could have significant implications for our understanding of quantum physics. It could lead to new technologies, such as the method the team has been using to peer inside the nucleus of the gold ions