These are organized by a classification scheme developed exclusively for Cosma. More…
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
- Refugee learners aim to lift up their communitiesby Katherine Ouellette | MIT Open Learning on October 12, 2021 at 7:15 pm
MIT Refugee Action Hub celebrates the graduation of its third and largest cohort yet.
- Pablo Jarillo-Herrero receives Max...by Sandi Miller | Department of Physics on October 12, 2021 at 6:40 pm
The Max Planck Society and Alexander von Humboldt Foundation honor the MIT physicist's work on two-dimensional quantum materials.
- Aziza Almanakly, Belinda Li receive Clare Boothe...by Jane Halpern | Department of Electrical Engineering and Computer Science on August 27, 2021 at 7:50 pm
Rigorous selection process for the prestigious fellowship took into account students’ outstanding track record of scientific achievement and inquiry, as well as contributions to the STEM community.
- A peculiar state of matter in layers of...by Matthew Hutson | Department of Nuclear Science and Engineering on August 19, 2021 at 4:00 pm
In a study that could benefit quantum computing, researchers show a superlattice embedded with nanodots may be immune from dissipating energy to the environment.
- 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.
Quantum Computing News -- ScienceDaily Quantum Computing News. Read the latest about the development of quantum computers.
- Bridging optics and electronicson October 14, 2021 at 5:11 pm
Researchers have developed a simple spatial light modulator made from gold electrodes covered by a thin film of electro-optical material that changes its optical properties in response to electric signals.
- Longstanding magnetic materials classification...on October 13, 2021 at 3:40 pm
For over 100 years, physicists, chemists, and materials scientists have developed extensive theoretical and experimental machinery to predict and characterize the electronic properties of magnetic materials, but even the most successful classification system, developed almost 75 years ago by Lev Shubnikov, was incomplete. An international team of researchers announced this week that it has finally been completed.
- To find sterile neutrinos, think smallon October 12, 2021 at 7:47 pm
Experiments have spotted anomalies hinting at a new type of neutrino, one that would go beyond the standard model of particle physics and perhaps open a portal to the dark sector. But no one has ever directly observed this hypothetical particle.
- New nanostructure could be the key to quantum...on October 12, 2021 at 1:50 pm
A novel electronic component could be an important key to the era of quantum information technology: Using a tailored manufacturing process, pure germanium is bonded with aluminum in a way that atomically sharp interfaces are created.
- Ultrafast and coupled: Atomic vibrations in the...on October 12, 2021 at 1:50 pm
Materials consisting of a few atomic layers display properties determined by quantum physics. In a stack of such layers, vibrations of the atoms can be triggered by infrared light. New experimental and theoretical work shows that atomic vibrations within the layers of hexagonal boron nitride, the so-called transverse optical phonons, couple directly to motions of the layers against each other. For a period of some 20 ps, the coupling results in a frequency down-shift of the optical phonons and […]