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Category: computing – Page 639

:oooo.

A research team from ITMO University, with the help of colleagues from MIPT (Russia) and Politecnico di Torino (Italy), has predicted a novel type of topological quantum state of two photons. Scientists have also applied a new, affordable experimental method for testing this prediction. The method relies on an analogy: Instead of expensive experiments with quantum systems of two or more entangled photons, the researchers have used resonant electric circuits of higher dimensionality described by similar equations. The obtained results can be useful for the engineering of optical chips and quantum computers without the need for expensive experiments. The research was published in Nature Communications.

Light plays a key role in modern information technologies: With its help, information is transmitted over large distances via optical fibers. In the future, scientists anticipate the invention of optical chips and computers that process information with the help of photons—light quanta—instead of electrons, as it is done today. This will decrease energy consumption, while also increasing the capabilities of computers. However, to turn these predictions into reality, fundamental and applied research of light behavior at the micro- and nanoscale is needed.

In the new study, the researchers have theoretically predicted the formation of a new quantum state of photons: Two photons propagating in the array of quantum microresonators (qubits) can form a bound pair and settle down on the edge of the array. A proper experiment demands special nanostructures, as well as special devices to create such quantum state of photons and detect it. Currently, such capabilities are available only to very few research teams worldwide.

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Love this convergence of metaverse and fighting censorship with style. Wonder when Microsoft will start getting pressure about this or other kinds of content.

Most of us live in countries where freedom of speech is considered a fundamental human right and it would be hard to imagine living in a different state than that. However, not all of us are blessed with this sometimes overlooked right as there are a number of countries in this world where governments actively censor their citizens, especially those whose profession is to report facts. Journalists.

In a number of places around the world, journalists are banned, jailed, exiled, and even killed for their words. In order to make their message heard and reach the places where they’re banned, Reporters Without Borders (RSF) opened a special type of library that could reach millions. They built it in Minecraft.

The creators reason their choice by explaining the library’s accessibility: ” Reporters Without Borders (RSF) used this backdoor to build ” The Uncensored Library”: a library that is now accessible on an open server for Minecraft players around the globe. The library is filled with books containing articles that were censored in their country of origin. These articles are now available again within Minecraft—hidden from government surveillance technology inside a computer game. The books can be read by everyone on the server, but their content cannot be changed. The library is growing, with more and more books being added to overcome censorship.”

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Magnetars are neutron stars endowed with the strongest magnetic fields observed in the universe, but their origin remains controversial. In a study published in Science Advances, a team of scientists from CEA, Saclay, the Max Planck Institute for Astrophysics (MPA), and the Institut de Physique du Globe de Paris developed a new and unprecedentedly detailed computer model that can explain the genesis of these gigantic fields through the amplification of pre-existing weak fields when rapidly rotating neutron stars are born in collapsing massive stars. The work opens new avenues to understand the most powerful and most luminous explosions of such stars.

Magnetars: what are they?

Neutron stars are compact objects containing one to two within a radius of about 12 kilometers. Among them, magnetars are characterized by eruptive emission of X-rays and gamma rays. The energy associated with these bursts of intense radiation is probably related to ultra–. Magnetars should thus spin down faster than other neutron stars due to enhanced magnetic braking, and measurements of their rotation period evolution have confirmed this scenario. We thus infer that magnetars have a dipole magnetic field of the order of 1015 Gauss (G), i.e., up to 1000 times stronger than typical neutron stars! While the existence of these tremendous magnetic fields is now well established, their origin remains controversial.

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You won’t have to be a tester to try Windows 10’s new, built-in Linux kernel in the near future. Microsoft has confirmed that Windows Subsystem for Linux 2 will be widely available when Windows 10 version 2004 arrives. You’ll have to install it manually for a “few months” until an update adds automatic installs and updates, but that’s a small price to pay if you want Linux and Windows to coexist in peace and harmony. It’ll be easier to set up, at least — the kernel will now be delivered through Windows Update instead of forcing you to install an entire Windows image.

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Dreams of human immortality may remain so, but extending our lives beyond 100, even 150 years, can soon become a reality. ‘The Future is Now’ explores ground-breaking technology that might help us to slow down the ageing process and overcome our physical limitations.

3D-printing of brand new human organs, controlling bionic prosthetics with your mind, or invading your body with disease-fighting microrobots. Hosts Kate and Talish bring you the latest developments in biomedical engineering.

Learn what artificial organs have to do with gravity, or see how the world appears to blind people who have had their vision restored with bionic eyes and a chip. Hear from researchers and futurists about their predictions and warnings regarding the future of science.

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A team of scientists in Australia claim to have stumbled on a breakthrough discovery that will have “major implications” for the future of quantum computing.

Describing the find as a “happy accident,” engineers at the University of New South Wales Sydney found a way to control the nucleus of an atom using electric fields rather than magnetic fields—which they have claimed could now open up a “treasure trove of discoveries and applications.”

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Morello and colleagues studied an antimony nucleus embedded in silicon. The larger antimony nucleus has higher spin than phosphorus. So, in a magnetic field, it has not just two basic states but eight, ranging from pointing in the same direction as the field to pointing in the opposite direction.

In addition, the distribution of electric charge within the nucleus isn’t uniform, with more charge around the poles than the equator. That uneven charge distribution gives experimenters another handle on the nucleus in addition to its spin and magnetism. They can grab it with an oscillating electric field and controllably ease it from one spin state to another or into combinations of any two. All it takes is applying an electric field of the right frequency with a simple electrode, the researchers report.

The researchers discovered the effect by accident, Morello says. For reasons that have nothing to do with quantum computing, they had wanted to study how the antimony nucleus embedded in a silicon chip would react to jolts of the oscillating magnetic field generated by a wire on the chip. But the wire melted and broke, turning the current-carrying wire into a charge-collecting electrode that instead generated an oscillating electric field.

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