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Category: quantum physics – Page 865

Quantum systems: Same, but different

Remarkable rules have been detected in the apparent chaos of disequilibrium processes. Different systems behave identically in many ways, if they belong to the same “universality class.” This means that experiments can be carried out with quantum systems that are easy to handle in order to obtain precise information about systems that cannot be directly studied in the experiment—such as the Big Bang.

Some phenomena are so complicated that it is impossible to precisely calculate them. This includes large , which consist of many particles, particularly when they are not in an equilibrium state, but changing rapidly. Such examples include the wild particle inferno that occurs in particle accelerators when large collide, or conditions just after the Big Bang, when particles rapidly expanded and then cooled.

At TU Wien and Heidelberg University, remarkable rules have been detected in the apparent chaos of disequilibrium processes. This indicates that such processes can be divided into universality classes. Systems belonging to the same class behave identically in many ways. This means that experiments can be carried out with systems that are easy to handle in order to obtain precise information about other systems that cannot be directly studied in the experiment. These findings have since been published in the journal Nature.

Quantum Human Biology

Expert Panel Host: Dr Brian Clement
Conference Held at Adelphi University 2013.
(A podcast version of this video is available on iTunes.)

• Brian Clement — Learn how to transform your lifestyle from toxic and self-destructive to healthful and self-affirming, and experience renewed energy and vitality that will last a lifetime.

• Hippocrates Institute director, Brian Clement shows how the Hippocrates LifeForce program implements the use of raw living foods to help people maintain a healthful weight and stimulate natural immune defenses for other chronic illnesses.

• Discover how to develop the positive frame of mind that supports good health, learn how to make the transition to eating raw living foods at home, while dining out, and when traveling.

• Learn how you can make informed decisions about the products you buy, and to disentangle yourself from unhealthy products.

• Our bodies: High levels of hormone-disrupting chemicals from cosmetics, flame-retardants from clothing and furniture, even long-banned substances like DDT and lead, are consistently showing up in human blood samples.

Continue reading “Quantum Human Biology” | >

Quantum on the edge: Light shines on new pathway for quantum technology

Scientists in Australia have for the first time demonstrated the protection of correlated states between paired photons—packets of light energy—using the intriguing physical concept of topology. This experimental breakthrough opens a pathway to build a new type of quantum bit, the building blocks for quantum computers.

The research, developed in close collaboration with Israeli colleagues, is published today in the prestigious journal, Science, a recognition of the foundational importance of this work.

“We can now propose a pathway to build robust entangled states for logic gates using protected pairs of photons,” said lead author Dr. Andrea Blanco-Redondo at the University of Sydney Nano Institute.

Europe shows first cards in €1-billion quantum bet

The Quantum Flagship was first announced in 2016, and on 29 October, the commission announced the first batch of fund recipients. The 20 international consortia, each of which includes public research institutions as well as industry, will receive a total of €132 million over 3 years for technology-demonstration projects.

One of the most ambitious EU ‘Flagship’ schemes yet has picked 20 projects, aiming to turn weird physics into useful products.

Computer theorists show path to verifying that quantum beats classical

As multiple research groups around the world race to build a scalable quantum computer, questions remain about how the achievement of quantum supremacy will be verified.

Quantum supremacy is the term that describes a quantum ’s ability to solve a computational task that would be prohibitively difficult for any classical algorithm. It is considered a critical milestone in , but because the very nature of quantum activity defies traditional corroboration, there have been parallel efforts to find a way to prove that quantum supremacy has been achieved.

Researchers at the University of California, Berkeley, have just weighed in by giving a leading practical proposal known as random circuit sampling (RCS) a qualified seal of approval with the weight of complexity theoretic evidence behind it. Random circuit sampling is the technique Google has put forward to prove whether or not it has achieved quantum supremacy with a 72-qubit computer chip called Bristlecone, unveiled earlier this year.

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