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Archive for the ‘quantum physics’ category: Page 806

Feb 18, 2016

Obama wants to spend $19 billion on cyber security

Posted by in categories: business, cybercrime/malcode, employment, health, quantum physics

One thing that will remain with tech for many years is jobs in cyber security — even with the layer of security that Quantum technology brings in the next 10 years; there is always a migration and retirement state that can (depending on the business and systems involved) could go on for years after Quantum platforms and networks are installed.


Then in December, aided and abetted by a Republican-controlled Congress, he eradicated those minor restrictions and replaced mindless austerity with clueless profligacy.

It proposes lifting the limits entirely from 2018. “It adheres to last year’s bipartisan budget agreement, it drives down the deficit, and includes smart savigs on health care, immigration and tax reform”.

Continue reading “Obama wants to spend $19 billion on cyber security” »

Feb 18, 2016

ISRO is developing a nano satellite to monitor suspended particles in polluted Indian cities

Posted by in categories: particle physics, quantum physics, satellites

Nano Satellite could be interesting and even expanded upon especially as we look to expand the usage of Quantum Technology across various wireless devices in the future as well as microbot technology to enable connectivity to the cloud and other wireless devices.


The nano-satellite, which is among ISRO’s important missions, will monitor air pollutants that pollute cities including Delhi, Lucknow, Amritsar and Allahabad.

The nano-satellite will weigh 15kg and placed 500 km above the earth.

Continue reading “ISRO is developing a nano satellite to monitor suspended particles in polluted Indian cities” »

Feb 18, 2016

Oxford Instruments and SPECS Surface Nano Analysis GmbH sign agreement for Nanonis Tramea quantum transport measurement system

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

This agreement places Oxford in a very nice position.


Quantum transport measurements are widely used in characterising new materials and devices for emerging quantum technology applications such as quantum information processing (QIP), quantum computing (QC) and quantum sensors. Such devices hold the potential to revolutionise future technology in high performance computing and sensing in the same way that semiconductors and the transistor did over half a century ago.

Physicists have long used standard electrical transport measurements such as resistivity, conductance and the Hall effect to gain information on the electronic properties and structure of materials. Now quantum transport measurements such as the quantum Hall effect (QHE) and fractional quantum Hall effect (FQHE) in two-dimensional electron gases (2DEG) and topological insulators – along with a range of other more complex measurements – inform researchers on material properties with quantum mechanical effects.

Continue reading “Oxford Instruments and SPECS Surface Nano Analysis GmbH sign agreement for Nanonis Tramea quantum transport measurement system” »

Feb 18, 2016

The Experiment That Will Allow Humans to “See” Quantum Entanglement

Posted by in category: quantum physics

The Quantum show that allows humans to see Quantum Entanglement.


We’ve puzzled over the nature of entanglement for almost a century. Now physicists have devised a way for us to “see” it for the first time.

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Feb 17, 2016

Quantum dot and quantum dot display (qled) market will grow rapidly according to new research report

Posted by in category: quantum physics

Q-Dot Display (QLED’s) — awesome display and investment.


Custom Market Insights releases a new market research report “Quantum Dot and Quantum Dot Display (QLED) Market Size, Shares, Strategies, and Forecasts, Worldwide, 2013 to 2019” to add to its collection of research reports.

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Feb 17, 2016

Could LIGO Discovery Of Gravitational Waves Unlock Secrets Of Quantum Gravity?

Posted by in categories: particle physics, quantum physics

This gravitational wave model has been created with the quantum gravity theory in mind, which has been predicted for decades. What else could the discovery of gravitational waves by the Laser Interferometer Gravitational-Wave Observatory uncover and reveal about this theory? (Photo : Henze | NASA)

Quantum gravity is a theory that has been the target of decades of study by physicists worldwide. If this idea is proven, it would tie together the General Theory of Relativity (which governs gravitational fields) with quantum mechanics, and the bizarro-world of subatomic particles.

Gravitational waves, produced by accelerating objects, ripple through space-time, according to most interpretations of the General Theory of Relativity penned by famed physicist Albert Einstein. Researchers at the Laser Interferometer Gravitational-Wave Observatory (LIGO) have announced they detected these disturbances in the fabric of time and space for the first time.

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Feb 17, 2016

Quantum Computing With Ordinary CMOS Transistors

Posted by in categories: computing, nanotechnology, quantum physics

Creating Qubit from a CMOS transitor.


Scientists make a qubit at the sharp edges within a silicon nanowire transistor.

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Feb 17, 2016

Whitewood Encryption Systems Announces the Awarding of a Third Patent Arising From Los Alamos National Laboratory Technology Transfer

Posted by in categories: encryption, internet, materials, quantum physics

I have mentioned in my previous posts about the Quantum Internet work that Los Alamos has been leading; today Los Alamos has been awarded a patent on their Quantum Communication (QC) Optical Fiber.


Whitewood received a Notice of Allowance for a patent application that addresses issues that arise when employing quantum communications techniques to share cryptographic material over fiber networks.

ArcPoint Strategic Communications.

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Feb 16, 2016

Controlling lasers to a millionth of a percent for trapped ion quantum computer

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

Jungsang Kim is trying to create a quantum computer by controlling the frequency of a laser to within a millionth of a percent.

According to David DiVincenzo, a prominent computer scientist at IBM, researchers must meet five criteria to create a true quantum computing device.

First, Kim needs a well-defined system that can represent different states. For example, classical computers use small electrical switches made out of semiconductors to indicate a 1 or a 0. But because an atom’s quantum spin can point in an infinite number of directions, controlling its state with a high degree of reliability is very difficult. Kim’s group has demonstrated this feat with an accuracy on par with anyone in the world.

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Feb 15, 2016

This Millennial Might Be the New Einstein

Posted by in category: quantum physics

The new Einstein and female to boot.


A 22-year-old Ph.D. candidate wants to understand the way quantum gravity works. And Jeff Bezos wants to hire her.

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