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Archive for the ‘quantum physics’ category: Page 789

May 12, 2016

Lego-like electronic bricks redefines ‘playing with blocks’

Posted by in categories: augmented reality, electronics, energy, quantum physics

Interesting method in controlling energy sources and efficiencies via Quantum legos.


The chrome-plated bricks can conduct electricity, integrate active parts such as LED lights, motor blocks, and even sound, light and proximity sensors. The conductive bricks feature flexible side-arms that ensure electrical connection between two adjacent blocks, and the whole assemblies are powered by a Bluetooth-controlled 9V battery block. The built-in Bluetooth controller lets users change the current’s direction and voltage levels via a mobile application.

That means the Brixo bricks can not only be triggered by sound, light and touch, but also controlled by any Bluetooth connected device, taking the good old Lego bricks further into the IoT world (the Danish company has its entries in the cloud via its Mindstorms Lego series and the augmented reality-capable Nexo Knights toys.

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May 12, 2016

Advisory Committee expresses Quantum, legacy system concerns

Posted by in categories: military, privacy, quantum physics, security

NSA meets with Silicon Valley execs to voice their concerns over legacy systems being hacked by Quantum technology. Glad they’re talking about it because with the recent advancements in Quantum means it will be available in devices, communications, and platforms a lot sooner than originally projected.


The National Security Telecommunications Advisory Committee (NSTAC) brought together Silicon Valley executives with federal officials at the advisory committee’s annual meeting on Wednesday in Santa Clara, California.

U.S. military and intelligence officials, including Department of Defense Secretary Ash Carter, Department of Homeland Security Secretary Jeh Johnson, and Department of Commerce Secretary Penny Pritzker, attended the advisory committee.

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May 12, 2016

Quantum research that could enhance self-driving vehicles now a $6M commercial venture

Posted by in categories: computing, quantum physics, robotics/AI, transportation

I am so happy to see others seeing the value because Quantum is changing everything; not just computing, raw material enrichment, medical technology and treatments, etc. Once more and more folks start seeing the various capabilities around Quantum and just how wide that range is; we will begin to see an explosion of demand for Quantum. We’re still in that mode of discovery, and wait and see state by some. However, the Quantum Revolution will exceed even the industrial revolution with the span of change that it brings across so many areas & industries.


Quantum physics research that could enhance self-driving vehicles and spearheaded by a Dalhousie University team is now a $6-million commercial venture that counts U.S. aerospace giant Lockheed Martin among its partners.

What started as a theoretical research project backed by Lockheed Martin hit paydirt when physics professor Jordan Kyriakidis realized quantum software could be used to perfect the design and operation of self-driving cars and new aircraft.

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May 11, 2016

How toy street lamps are shedding new light on quantum computing

Posted by in categories: computing, quantum physics, transportation

“ALL ABOARD” the QC train is leaving the station.


If you’ve ever had a train set, you might remember the tiny street lamps that are often part of the model landscape. Today, the bulbs from those toy lamps are helping to shed light on quantum computing.

In fact, there’s been a spate of developments lately in quantum computing, and not just IBM’s announcement of its upcoming cloud service. Here are three recent advances from research institutions around the world.

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May 11, 2016

Scientists take a major leap toward a ‘perfect’ quantum metamaterial

Posted by in categories: electronics, nanotechnology, particle physics, quantum physics

Scientists have devised a way to build a “quantum metamaterial” — an engineered material with exotic properties not found in nature — using ultracold atoms trapped in an artificial crystal composed of light. The theoretical work represents a step toward manipulating atoms to transmit information, perform complex simulations or function as powerful sensors.

The research team, led by scientists at the Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab) and UC Berkeley, proposes the use of an accordion-like atomic framework, or “lattice” structure, made with laser light to trap atoms in regularly spaced nanoscale pockets. Such a light-based structure, which has patterned features that in some ways resemble those of a crystal, is essentially a “perfect” structure — free of the typical defects found in natural materials.

Researchers believe they can pinpoint the placement of a so-called “probe” atom in this crystal of light, and actively tune its behavior with another type of laser light (near-infrared light) to make the atom cough up some of its energy on demand in the form of a particle of light, or photon.

Read more

May 11, 2016

D-Wave launches Quantum for Quants at Budapest derivatives conference

Posted by in categories: computing, internet, mathematics, mobile phones, quantum physics, space

Nice list of experts on Quantum; however, I would love to see someone from the Lab from Los Alamos to discuss Quantum Internet and University of Sydney from their Innovation Lab or the lady herself “Michelle Simmons” on the panel. Hope to see registration soon.


The announcement was made at the Global Derivatives Trading & Risk Management conference in Budapest, Hungary.

“Quantum computers enable us to use the laws of physics to solve intractable mathematical problems,” said Marcos de López de Prado, Senior Managing Director at Guggenheim Partners and a Research Fellow at Lawrence Berkeley National Laboratory’s Computational Research Division. “This is the beginning of a new era, and it will change the job of the mathematician and computer scientist in the years to come.”

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May 11, 2016

New State of Water: Strange 6-Sided Molecule Found

Posted by in categories: particle physics, quantum physics

A strange new behavior of water molecules has been observed inside crystals of beryl, a type of emerald, caused by bizarre quantum-mechanical effects that let the water molecules face six different directions at the same time.

Under normal conditions, the two hydrogen atoms in each water molecule are arranged around the oxygen atom in an open “V” shape, sometimes compared to a boomerang or Mickey Mouse ears.

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May 11, 2016

IBM makes quantum computing available free on IBM Cloud

Posted by in categories: quantum physics, supercomputing

https://youtube.com/watch?v=jf7D8snlsnQ

Layout of IBM’s five superconducting quantum bit device. In 2015, IBM scientists demonstrated critical breakthroughs to detect quantum errors by combining superconducting qubits in latticed arrangements, and whose quantum circuit design is the only physical architecture that can scale to larger dimensions. Now, IBM scientists have achieved a further advance by combining five qubits in the lattice architecture, which demonstrates a key operation known as a parity measurement — the basis of many quantum error correction protocols. (credit: IBM Research)

IBM Research has announced that effective Wednesday May 4, it is making quantum computing available free to members of the public, who can access and run experiments on IBM’s quantum processor, via the IBM Cloud, from any desktop or mobile device.

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May 10, 2016

CoinFac Brings Quantum Computing Technology To Cryptocurrency Mining

Posted by in categories: bitcoin, cryptocurrencies, economics, information science, quantum physics, supercomputing

QC meets Blockchaining; nice.


CoinFac Limited, a technology company, has recently introduced the next generation quantum computing technology into cryptocurrency mining, allowing current Bitcoin and Altcoin miners to enjoy a 4,000 times speed increase.

Quantum computing is being perceived as the next generation of supercomputers capable of processing dense digital information and generating multi-sequential algorithmic solutions 100,000 times faster than conventional computers. With each quantum computing server costing at an exorbitant price tag of $5 Million — $10 Million, this revolutionary concoction comprising advanced technological servers with a new wave of currency systems, brings about the most uprising event in the cryptocurrency ecosystem.

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May 10, 2016

Researchers Find Unexpected Magnetic Effect

Posted by in categories: computing, electronics, particle physics, quantum physics

I reported on this finding which the National Labs in Oak Ridge TN published yesterday. This is MIT’s own report on the research and discovery of new material called bismuth selenide (Bi2Se3) with an ultrathin layer of a magnetic material, europium sulfide (EuS). I know that is a mouth full. However, the end result will be that it could lead to a new generation of electronics, spintronics, or quantum computing devices. Definitely a big move forward in bridging QC into all things that use daily.


A new and unexpected magnetic effect has taken researchers by surprise, and could open up a new pathway to advanced electronic devices and even robust quantum computer architecture.

The finding is based on a family of materials called topological insulators (TIs) that has drawn much interest in recent years. The novel electronic properties of TIs might ultimately lead to new generations of electronic, spintronic, or quantum computing devices. The materials behave like ordinary insulators throughout their interiors, blocking electrons from flowing, but their outermost surfaces are nearly perfect conductors, allowing electrons to move freely. The confinement of electrons to this vanishingly thin surface makes then behave in unique ways.

But harnessing the materials’ promise still faces numerous obstacles, one of which is to find a way of combining a TI with a material that has controllable magnetic properties. Now, researchers at MIT and elsewhere say they have found a way to overcome that hurdle.

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