Press "esc" to clear
Go to Advanced Search

Showing results

110 of 262
iStock-1011767908.jpg

Article ID: 705125

University to lead $2.25 million grant for developing next-generation quantum computer

University of Minnesota College of Science and Engineering

The University of Minnesota announced today that it will lead a $2.25 million grant over the next three years from the U.S. Department of Energy Office of Science for developing materials and device knowledge necessary for creating the next-generation of computing—the quantum computer.

Released:
7-Dec-2018 12:05 PM EST
miller-warner-2018.jpg

Article ID: 704841

FAU Appointed to Serve on the International Telecommunication Union of the United Nations

Florida Atlantic University

FAU is spearheading a sub-group on global quantum-safe communication standards in collaboration with leading academic institutions in Europe, Asia and throughout the world, to shape all future requirements from both a government and industry perspective.

Released:
5-Dec-2018 9:00 AM EST
Opticareleasephoto.jpg

Article ID: 704898

Researchers demonstrate new building block in quantum computing

Oak Ridge National Laboratory

Researchers with the Department of Energy's Oak Ridge National Laboratory have demonstrated a new level of control over photons encoded with quantum information. The team's experimental system allows them to manipulate the frequency of photons to bring about superposition, a state that enables quantum operations and computing.

Released:
4-Dec-2018 1:05 PM EST
Ramesh-portrait.jpg

Article ID: 704726

Berkeley Lab Takes a Quantum Leap in Microelectronics

Lawrence Berkeley National Laboratory

A Q&A with Ramamoorthy Ramesh on the need for next-generation computer chips

Released:
3-Dec-2018 12:05 PM EST
Bell_press_small.png

Article ID: 704685

Probing Quantum Physics on a Macroscopic Scale

Delft University of Technology

Why does quantum mechanics work so well for microscopic objects, yet macroscopic objects are described by ‘classical physics’? This question has bothered physicists since the development of quantum theory more than a 100 years ago. Researchers of Delft University of Technology and the University of Vienna have now devised a macroscopic system that exhibits entanglement between mechanical phonons and optical photons. They tested the entanglement using a Bell test, one of the most convincing and important tests to show a system behaves non-classically.

Released:
30-Nov-2018 11:05 AM EST
Superlattices_in_microscope.jpg

Article ID: 703595

A Burst of ”Synchronous” Light

Empa, Swiss Federal Laboratories for Materials Science and Technology

Excited photo-emitters can cooperate and radiate simultaneously, a phenomenon called superfluorescence. Researchers from Empa and ETH Zurich, together with colleagues from IBM Research Zurich, have recently been able to create this effect with long-range ordered nanocrystal superlattices. This discovery could enable future developments in LED lighting, quantum sensing, quantum communication and future quantum computing. The study has just been published in the renowned journal "Nature".

Released:
8-Nov-2018 5:05 AM EST

Article ID: 703562

Scientists shuffle the deck to create materials with new quantum behaviors

Ames Laboratory

Layered transition metal dichalcogenides or TMDCs—materials composed of metal nanolayers sandwiched between two other layers of chalcogens— have become extremely attractive to the research community due to their ability to exfoliate into 2D single layers.

Released:
7-Nov-2018 2:05 PM EST

Article ID: 703270

One step closer to complex quantum teleportation

University of Vienna

For future technologies such as quantum computers and quantum encryption, the experimental mastery of complex quantum systems is inevitable. Scientists from the University of Vienna and the Austrian Academy of Sciences have succeeded in making another leap.

Released:
2-Nov-2018 10:05 AM EDT

Showing results

110 of 262

Chat now!