This course covers the fundamental concepts and topics of quantum mechanics which include basic concepts, 1D potential problems, time evolution of quantum states, and essential linear algebra. It ...

General relativity explains gravity as the distortion of space-time. Quantum mechanics explains other forces using exchanged "virtual particles." Unifying gravity with quantum mechanics is a major ...

Quantum computers, which operate leveraging effects rooted in quantum mechanics, have the potential of tackling some ...

Quantum encryption is the mathematics of cryptography leveraging the physics of quantum mechanics to make unpredictable crypto keys – that’s all it is. There are two major methodologies of quantum ...

Perhaps no other area of physics has enjoyed as much attention from scientists and non-scientists as quantum mechanics. The fame of quantum mechanics theories stands in juxtaposition to the physical ...

Exerting delicate control over a pair of atoms within a mere seven-millionths-of-a-second window of opportunity, physicists created an atomic circuit that may help quantum computing become a reality.

A tiny cube floating and flipping in midair sounds like something straight out of "Harry Potter," but Harvard physicist Subir Sachdev doesn't need magic to levitate objects. Sachdev performed a ...

The field of quantum computation has made rapid progress just in the last few years. In 2016, IBM put the first quantum computer on the cloud, expanding the reach of the technology beyond research ...