Quantum computers, systems that process information leveraging quantum mechanical effects, have the potential of ...

A team at the University of Chicago has discovered a surprisingly simple way to create powerful quantum states that are normally difficult to produce. By making small adjustments to the energy levels ...

Accelerate the future of technology by studying one of the world’s most cutting-edge fields: quantum information science and engineering (QISE). This exciting discipline is at the forefront of today’s ...

Swapping materials in its Majorana 2 chip boosted the effectiveness of quantum bits that rely on the math of topology to ...

A spin qubit, in which quantum information is encoded in the spin state of an electron, is one of the most promising platforms for quantum computing. Spin qubits exhibit long coherence times and are ...

Building useful quantum technologies—from sensors to computers—requires generating highly complex entangled states, in which ...

Researchers have discovered a way to protect quantum information from environmental disruptions, offering hope for more reliable future technologies. Researchers at the University of the Witwatersrand ...

New research suggests that fleeting quantum forces leave lasting imprints on the brain, subtly influencing thought, intuition, and the choices we make.

ARL scientists achieved a major milestone in quantum sensing technology that could transform how electromagnetic signals are ...

Quantum Science and Engineering is the study and application of the principles of quantum mechanics (such as superposition and entanglement) to develop new technologies that surpass the limits of ...

Push the boundaries of computing with UW’s most innovative degree. The master’s in quantum information science and engineering (QISE) prepares grads to work in emerging technology while completing ...