Quantum Computing News

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Researchers Perform Experiments to Build an Atomic Nuclear Clock

Building the most precise clock in the world requires something that “ticks” extremely fast and extremely accurate. Electrons used in the case of an atomic clock can be switched back and forth between two distinct states in a way that is defined very precisely.

12 Sep 2019

New Material Could Help Develop Highly Energy-Efficient Spintronic Applications

A new material, which can be useful in developing highly energy-efficient IT applications, has been developed by an international research group in collaboration with Martin Luther University Halle-Wittenberg (MLU).

10 Sep 2019

New Method for Reliable Decoding of Quantum Messages Conveyed Very Fast

Quantum information is dependent on the potential to write messages in a quantum particle and to read them out in a secure way.

4 Sep 2019

Researchers Simulate Quantum Computer Properties in a Classical Computer

Researchers from Linköping University have demonstrated the way a quantum computer really works and have been able to simulate quantum computer properties in a classical computer.

4 Sep 2019

Qubit Component Positioned with Nanoscale Precision

Archer Exploration Limited is pleased to announce that the Company has assembled the first qubit component of a prototype room-temperature operation quantum computing qubit processor (“chip”), as part of its pioneering quantum technology project 12CQ (pronounced “one two cee cue”).

From Archer Exploration Limited 26 Aug 2019

New Algorithm to Better Understand Quantum-to-Classical Transition

Researchers from Los Alamos National Laboratory have created a new quantum computing algorithm that helps gain better insights into the quantum-to-classical transition.

1 Aug 2019

New Algorithm can Calculate Molecular Properties on Noisy Quantum Computer

Several decades could be needed to realize the huge, error-correcting quantum computers visualized at present.

29 Jul 2019

Updated Computer Code Could Help Predict and Prevent Plasma Leaks in Tokamaks

Subatomic particles, which whiz around ring-shaped fusion equipment called tokamaks, merge at times and liberate enormous amounts of energy.

25 Jul 2019

ARL’s Custom Ion Trap Could Improve Quantum Sensing and Navigation

Army researchers have achieved a promising landmark in the area of quantum studies for enhanced capabilities in quantum computation and quantum simulation that offer the Soldier a strategic advantage in the combat zone.

25 Jul 2019

Method for Making Ion to Display Exact Quantities of Quantum-Level Motion

Physicists from the National Institute of Standards and Technology (NIST) have demonstrated precise control at the quantum level by developing a technique for making an ion, or electrically charged atom, exhibit accurate quantities of quantum-level motion.

23 Jul 2019

Quantum Computing News

Researchers Perform Experiments to Build an Atomic Nuclear Clock

New Material Could Help Develop Highly Energy-Efficient Spintronic Applications

New Method for Reliable Decoding of Quantum Messages Conveyed Very Fast

Researchers Simulate Quantum Computer Properties in a Classical Computer

Qubit Component Positioned with Nanoscale Precision

New Algorithm to Better Understand Quantum-to-Classical Transition

New Algorithm can Calculate Molecular Properties on Noisy Quantum Computer

Updated Computer Code Could Help Predict and Prevent Plasma Leaks in Tokamaks

ARL’s Custom Ion Trap Could Improve Quantum Sensing and Navigation

Method for Making Ion to Display Exact Quantities of Quantum-Level Motion

Using Indium Deposition for Superconducting Interconnects

IRTracer-100 FTIR Spectrophotometer with Improved Detector Design from Shimadzu

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The Preparation of Superconducting Qubits

Satellites in Space are Mapping the Wind

Applications of Nuclear Physics

Quantum Computing News

1 New Technique Uses Organic Molecules to Fabricate Novel Spintronic Devices

2 Study Offers New Information Related to Gluon Dynamics in Proton

3 Deepest Optical Image of Neutron Star Collision Afterglow Captured

4 New Method for Reliable Decoding of Quantum Messages Conveyed Very Fast

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