Quantum Tech
Are quantum dots finally ready for the prime time?
According to Yole Développement, Quantum Dots are finally ready for prime time and will exceed traditional phosphor revenue by 2020 by allowing LCD to compete with OLED in the race for the next-gen displays. This prediction comes from a recent Yole LED downconverters technology & market report, Phosphors & Quantum Dots 2015: LED Downconverters for Lighting & Displays.
Executives will present quantum dot technology
QD Vision, continues to drive quantum dot technical and market development discussions at the Society for Information Display’s (SID) Display Week 2015. The event will be held at the San Jose Convention Center from 31st May to 5th June, 2015.
Quantum OS makes simultaneous massive parallel computations
Cambridge Quantum Computing has announced the development of t|ket>, a unique quantum computing operating system. t|ket> was created by CQCL, and facilitated by a proprietary custom designed high speed super computer also built by CQCL, in order to simulate a quantum processor. A quantum computer takes advantage of quantum interference.
Engineering simulation to help build quantum computers
The world’s 'most advanced' quantum computers are being built and designed by D-Wave Systems with help from engineering simulation solutions from ANSYS. This next-gen of supercomputers uses quantum mechanics to massively accelerate computation and has the potential to solve some of the most complex computing problems facing organisations today.
0.18 & 0.35μm UV photodiodes offer high quantum efficiency
X-FAB Silicon Foundries has announced the expansion of its 0.18 and 0.35μm device portfolio with highly sensitive ultraviolet photodiodes, the first of its kind developed by a silicon foundry. Easily integrated into designs implemented in X-FAB’s modular XH018 and XH035 CMOS process technologies, X-FAB says that the diodes provide the highest quantum efficiency available from a silicon foundry.
ZnO heterostructures yield GaAs-style quantum phase
Heterointerfaces composed of dissimilar materials have been applied to functional devices such as transistors and LEDs. In particular, the best-quality electron system is formed in gallium arsenide heterostructures, where a unique quantum phase was found at low temperature about 30 years ago, the characteristics of which have yet to be clarified.
2mm quantum dot technology enables ultra-slim displays
QD Vision has introduced a 2mm wide quantum dot optic, expanding the market for the industry’s best colour to ultra-slim displays such as LCD monitors, all-in-one computers and televisions. The colour IQ optical component represents a 33% width reduction from the 3mm optic, making it the thinnest quantum dot, full-gamut colour solution available today.
Quantum rubidium clock exceeds LTE base station requirements
Microsemi has announced the availability of its enhanced Quantum Rubidium Miniature Atomic Clock (MAC) SA.3X family. The company says that its enhanced Quantum MAC SA.3X family, based on Coherent Population Trapping (CPT) technology, is one of the industry’s smallest, lightest and highest-performing MACs, meeting all traditional broad market frequency reference application needs.
QD Vision at Quantum Dots Forum 2015
QD Vision will play prominently in this year’s Quantum Dots Forum, which takes place on 18th March. The forum, hosted by Smithers Apex is the only event in the US dedicated exclusively to quantum dots. More than 150 industry professionals are expected at the conference to explore market opportunities, technological developments, environmental issues and more.
One more step towards a quantum leap in computing
In order to develop future quantum computer networks, it is necessary to hold a known number of atoms and read them without them disappearing. To do this, researchers from the Niels Bohr Institute have developed a method with a trap that captures the atoms along an ultra thin glass fibre, where the atoms can be controlled. The results are published in the scientific journal, Physical Review Letters.