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Nov 29, 2017

Scientists demonstrate one of largest quantum simulators

Posted by in categories: particle physics, quantum physics

Physicists at MIT and Harvard University have demonstrated a new way to manipulate quantum bits of matter. In a paper published today in the journal Nature, they report using a system of finely tuned lasers to first trap and then tweak the interactions of 51 individual atoms, or quantum bits.

The team’s results represent one of the largest arrays of quantum bits, known as qubits, that scientists have been able to individually control. In the same issue of Nature, a team from the University of Maryland reports a similarly sized system using trapped ions as quantum bits.

In the MIT-Harvard approach, the researchers generated a chain of 51 atoms and programmed them to undergo a quantum phase transition, in which every other atom in the chain was excited. The pattern resembles a state of magnetism known as an antiferromagnet, in which the spin of every other atom or molecule is aligned.

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Nov 29, 2017

Physicists set new record with 10-qubit entanglement

Posted by in categories: computing, quantum physics

(Phys.org)—Physicists have experimentally demonstrated quantum entanglement with 10 qubits on a superconducting circuit, surpassing the previous record of nine entangled superconducting qubits. The 10-qubit state is the largest multiqubit entangled state created in any solid-state system and represents a step toward realizing large-scale quantum computing.

Lead researcher Jian-Wei Pan and co-workers at the University of Science and Technology of China, Zhejiang University, Fuzhou University, and the Institute of Physics, China, have published a paper on their results in a recent issue of Physical Review Letters.

In general, one of the biggest challenges to scaling up multiqubit entanglement is addressing the catastrophic effects of decoherence. One strategy is to use superconducting circuits, which operate at very cold temperatures and consequently have longer coherence times.

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Nov 29, 2017

Eye contact with your baby helps synchronise your brainwaves

Posted by in category: neuroscience

Making eye contact with an infant makes adults’ and babies’ brainwaves ‘get in sync’ with each other – which is likely to support communication and learning – according to researchers at the University of Cambridge.

When a parent and infant interact, various aspects of their behaviour can synchronise, including their gaze, emotions and heartrate, but little is known about whether their also synchronises – and what the consequences of this might be.

Brainwaves reflect the group-level activity of millions of neurons and are involved in information transfer between brain regions. Previous studies have shown that when two adults are talking to each other, communication is more successful if their brainwaves are in synchrony.

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Nov 29, 2017

Samsung develops a battery that could charge your phone in just 12 minutes

Posted by in categories: materials, mobile phones

Researchers at the Samsung Advanced Institute of Technology (SAIT) have managed to develop a “graphene ball” which could transform the way we think about batteries.

In a statement on Tuesday, South Korean tech giant Samsung described the graphene ball as a “unique battery material” which allows a 45 percent increase in capacity, as well as charging speeds that are five times faster than standard lithium-ion batteries.

In 2004 researchers at the University of Manchester, in England, managed to isolate graphene for the first time. According to the university, graphene is the thinnest material on the planet, is 200 times stronger than steel, transparent, and is also the world’s “most conductive material.”

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Nov 29, 2017

Key component to scale up quantum computing

Posted by in categories: computing, quantum physics

A team at the University of Sydney and Microsoft, in collaboration with Stanford University in the US, has miniaturised a component that is essential for the scale-up of quantum computing. The work constitutes the first practical application of a new phase of matter, first discovered in 2006, the so-called topological insulators.

Beyond the familiar phases of matter — solid, liquid, or gas — are materials that operate as insulators in the bulk of their structures but have surfaces that act as conductors. Manipulation of these materials provide a pathway to construct the circuitry needed for the interaction between and classical systems, vital for building a practical quantum .

Theoretical work underpinning the discovery of this new phase of matter was awarded the 2016 Nobel Prize in Physics.

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Nov 29, 2017

Artificial muscles give soft robots superpowers

Posted by in categories: cyborgs, robotics/AI

By Lindsay Brownell

(CAMBRIDGE, Mass.) — Soft robotics has made leaps and bounds over the last decade as researchers around the world have experimented with different materials and designs to allow once rigid, jerky machines to bend and flex in ways that mimic and can interact more naturally with living organisms. However, increased flexibility and dexterity has a trade-off of reduced strength, as softer materials are generally not as strong or resilient as inflexible ones, which limits their use.

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Nov 29, 2017

The Hydroponic, Robotic Future of Farming in Greenhouses

Posted by in categories: food, robotics/AI

In a Silicon Valley office park, a startup is developing a system that could automate greenhouse farming and help feed the world.

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Nov 29, 2017

Sony’s Robot Dog “Aibo” Is Back With High-Tech Tricks

Posted by in category: robotics/AI

This robot dog has deep learning capabilities which allow it to recognize faces, understand commands, and each unit can even develop its own “personality.”

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Nov 29, 2017

This breakthrough quantum encryption tool could make the web “hack-proof”

Posted by in categories: encryption, internet, quantum physics

Researchers have doubled the speed at which quantum distribution keys can be transmitted.

Science.

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Nov 29, 2017

Superconducting qubit 3D integration prospects bolstered

Posted by in categories: computing, quantum physics

Researchers from Google and the University of California Santa Barbara have taken an important step towards the goal of building a large-scale quantum computer.

Writing in the journal Quantum Science and Technology, they present a new process for creating superconducting interconnects, which are compatible with existing superconducting .

The race to develop the first large-scale error-corrected quantum computer is extremely competitive, and the process itself is complex. Whereas classical computers encode data into binary digits (bits) that exist in one of two states, a quantum computer stores information in quantum bits (qubits) that may be entangled with each other and placed in a superposition of both states simultaneously.

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