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Quantum computing is computing using quantum-mechanical phenomena, such as superposition and entanglement. A quantum computer is a device that performs quantum computing. They are different from binary digital electronic computers based on transistors. Whereas common digital computing requires that the data be encoded into binary digits (bits), each of which is always in one of two definite states (0 or 1), quantum computation uses quantum bits, which can be in superpositions of states. A quantum Turing machine is a theoretical model of such a computer, and is also known as the universal quantum computer. — Wikipedia
Quantum computing 101 (Institute for Quantum Computing, University of Waterloo)
An Introduction to Quantum Computing, Without the Physics (Giacomo Nannicini, arXiv.org)
An Introduction to Quantum Computing (Noson S. Yanofsky, arXiv.org)
MIT News - Quantum computing MIT news feed about: Quantum computing
- Making it through a pandemic senior year with...by Sandi Miller | Department of Mathematics on July 19, 2021 at 5:40 pm
Miles Johnson ’21, a recent graduate in mathematics and EECS, employed a strong dorm network and personal interests including rock climbing and jazz to complete a rich MIT experience.
- Four MIT faculty members receive 2021 US...by Alison Gold | School of Engineering | School of Science on June 24, 2021 at 6:50 pm
Faculty from the departments of Physics and of Nuclear Science and Engineering faculty were selected for the Early Career Research Program.
- Revisiting a quantum past for a fusion futureby Paul Rivenberg | Plasma Science and Fusion Center on June 23, 2021 at 5:25 pm
Principal Research Scientist Abhay Ram circles back to his graduate school studies for a new initiative combining classical physics and quantum computing.
- Clearing the way toward robust quantum computingby Michaela Jarvis | Research Laboratory of Electronics on June 16, 2021 at 5:00 pm
MIT researchers demonstrate a way to sharply reduce errors in two-qubit gates, a significant advance toward fully realizing quantum computation.
- MIT turns “magic” material into versatile...by Elizabeth A. Thomson | Materials Research Laboratory on May 19, 2021 at 5:00 pm
Work on three graphene-based devices may yield new insights into superconductivity.
Quantum Computing News -- ScienceDaily Quantum Computing News. Read the latest about the development of quantum computers.
- New quantum research gives insights into how...on July 21, 2021 at 9:26 pm
A team of scientists proposes that modulated quantum metasurfaces can control all properties of photonic qubits, a breakthrough that could impact the fields of quantum information, communications, sensing and imaging, as well as energy and momentum harvesting.
- 'Magic-angle' trilayer graphene may be a rare,...on July 21, 2021 at 6:19 pm
Physicists have observed signs of a rare type of superconductivity in a material called 'magic-angle' twisted trilayer graphene. They report that the material exhibits superconductivity at surprisingly high magnetic fields of up to 10 Tesla, which is three times higher than what the material is predicted to endure if it were a conventional superconductor.
- Ultrathin magnet operates at room temperatureon July 20, 2021 at 3:43 pm
Scientists have created an ultrathin magnet that operates at room temperature. The ultrathin magnet could lead to new applications in computing and electronics -- such as high-density, compact spintronic memory devices -- and new tools for the study of quantum physics.
- Future information technologies: Topological...on July 16, 2021 at 3:24 pm
Using time- and spin-resolved methods at BESSY II, the physicists explored how, after optical excitation, the complex interplay in the behavior of excited electrons in the bulk and on the surface results in unusual spin dynamics. The work is an important step on the way to spintronic devices based on topological materials for ultrafast information processing.
- Scientists take snapshots of ultrafast switching...on July 15, 2021 at 6:23 pm
Scientist demonstrated a new way of observing atoms as they move in a tiny quantum electronic switch as it operates. Along the way, they discovered a new material state that could pave the way for faster, more energy-efficient computing.