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Archive for the ‘quantum physics’ category: Page 322

Dec 12, 2022

The World-Changing Race to Develop the Quantum Computer

Posted by in categories: climatology, computing, internet, quantum physics, sustainability

Such a device could help address climate change and food scarcity, or break the Internet. Will the U.S. or China get there first?

Dec 12, 2022

Hugo de Garis interview — part 3 — Terrans, Cosmists & Cyborgs 2010/10/09 007–1

Posted by in categories: cyborgs, mathematics, quantum physics, robotics/AI, singularity

Interview with Hugo in Melbourne after the Singularity Summit Australia 2010, conducted by Adam A. Ford.

Terrans, Cyborgs and Cosmists — Varieties of human groups. Species dominance.

Continue reading “Hugo de Garis interview — part 3 — Terrans, Cosmists & Cyborgs 2010-10-09 007-1” »

Dec 11, 2022

Microsphere Pair Converts Microwaves to Light

Posted by in categories: computing, quantum physics

A pair of microspheres can convert microwave signals over a wide frequency range into optical signals, which will be essential for future quantum technologies.

Future quantum communication systems will likely use microwaves to transfer information into and out of storage and processing devices but will use lasers to carry information from point to point within an extended network. Now researchers have demonstrated an improved method for converting microwaves to visible light signals by exploiting the way that electromagnetic waves can set up vibrations within microspheres [1]. Two microspheres in contact—one sensitive to microwaves and the other sensitive to optical signals—serve as the core of the converter. The work should give researchers a wider range of technological options as they develop advanced communications and computing networks.

Researchers are pursuing a variety of ways to store quantum information, or “qubits,” in microscopic, typically superconducting, structures. One common feature of such technologies is that reading or writing information relies on interactions with microwaves rather than on higher-frequency visible or infrared light from lasers. But lasers offer the best way to move information around, so extended networks of such devices will need ways to convert signals from one form to the other.

Dec 11, 2022

Quantum physics is weird, but here’s how it’s making us money

Posted by in categories: economics, quantum physics

Following a visit to the UK’s National Quantum Technology Showcase, James McKenzie is excited about the prospects of UK firms developing “quantum 2.0” technology.

Dec 10, 2022

How Strong Would Be a Black Hole the Size of a Coin

Posted by in categories: cosmology, media & arts, quantum physics

Black holes are known as the most terrifying, mysterious, and fascinating objects in the Universe. Eternally hungry, they eat everything in their path and are constantly expanding. But how small and how big can a black hole be? Unlike stars and planets, black holes have no size restrictions. They grow when they eat the matter around them. Does it mean that they can be not only super large but super small? Let’s find out!

#brightside.

Continue reading “How Strong Would Be a Black Hole the Size of a Coin” »

Dec 10, 2022

Why European researchers hooked up a quantum machine to a supercomputer

Posted by in categories: information science, quantum physics, supercomputing

In the cons column, quantum computers are hard to use, require a very controlled set up to operate, and have to contend with “decoherence” or losing their quantum state which gives weird results. They’re also rare, expensive, and for most tasks, way less efficient than a traditional computer.

Still, a lot of these issues can be offset by combining a quantum computer with a traditional computer, just as VTT has done. Researchers can create a hybrid algorithm that has LUMI, the traditional supercomputer, handle the parts it does best while handing off anything that could benefit from quantum computing to HELMI. LUMI can then integrate the results of HELMI’s quantum calculations, perform any additional calculations necessary or even send more calculations to HELMI, and return the complete results to the researchers.

Finland is now one of few nations in the world with a quantum computer and a supercomputer, and LUMI is the most powerful quantum-enabled supercomputer. While quantum computers are still a way from being broadly commercially viable, these kinds of integrated research programs are likely to accelerate progress. VTT is currently developing a 20-qubit quantum computer with a 50-qubit upgrade planned for 2024.

Dec 10, 2022

Engineers Push Probabilistic Computing Closer to Reality

Posted by in categories: computing, engineering, information science, quantum physics

A large universal quantum computer is still an engineering dream, but machines designed to leverage quantum effects to solve specific classes of problems—such as D-wave’s computers—are alive and well. But an unlikely rival could challenge these specialized machines: computers built from purposely noisy parts.

This week at the IEEE International Electron Device Meeting (IEDM 2022), engineers unveiled several advances that bring a large-scale probabilistic computer closer to reality than ever before.

Quantum computers are unrivaled for any algorithm that relies on quantum’s complex amplitudes. “But for problems where the numbers are positive, sometimes called stochastic problems, probabilistic computing could be quite competitive,” says Supriyo Datta, professor of electrical and computer engineering at Purdue University and one of the pioneers of probabilistic computing.

Dec 9, 2022

Quantum light source could pave the way to a quantum internet

Posted by in categories: engineering, internet, quantum physics

The ability to integrate fiber-based quantum information technology into existing optical networks would be a significant step toward applications in quantum communication. To achieve this, quantum light sources must be able to emit single photons with controllable positioning and polarization and at 1.35 and 1.55 micrometer ranges where light travels at minimum loss in existing optical fiber networks, such as telecommunications networks. This combination of features has been elusive until now, despite two decades of research efforts.

Recently, two-dimensional (2D) semiconductors have emerged as a novel platform for next-generation photonics and electronics applications. Although scientists have demonstrated 2D quantum emitters operating at the visible regime, single-photon emission in the most desirable telecom bands has never been achieved in 2D systems.

To solve this problem, researchers at Los Alamos National Laboratory developed a strain engineering protocol to deterministically create two-dimensional quantum light emitters with operating wavelength tunable across O and C telecommunication bands. The polarization of the emissions can be tuned with a magnetic field by harnessing the valley degree of freedom.

Dec 9, 2022

Polarization entanglement-enabled quantum holography

Posted by in categories: particle physics, quantum physics

Year 2021 face_with_colon_three


By exploiting polarization entanglement between photons, quantum holography can circumvent the need for first-order coherence that is vital to classical holography.

Dec 9, 2022

Nobody took John F. Clauser’s quantum experiments seriously. 50 years later, he’s collecting a Nobel Prize

Posted by in category: quantum physics

John F. Clauser reflects on receiving the 2022 Nobel Prize in physics for the groundbreaking work he did 50 years ago.