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Archive for the ‘computing’ category: Page 167

Oct 31, 2023

How nanobots and nanomedicine will improve our health

Posted by in categories: biotech/medical, chemistry, computing, health, nanotechnology, quantum physics

Nanotechnology sounds like a futuristic development, but we already have it in the form of CPU manufacturing. More advanced nanotech could be used to create independent mobile entities like nanobots. One of the main challenges is selecting the right chemicals, elements, and structures that actually perform a desired task. Currently, we create more chemically oriented than computationally oriented nanobots, but we still have to deal with the quantum effects at tiny scale.

One of the most important applications of nanotechnology is to create nanomedicine, where the technology interacts with biology to help resolve problems. Of course, the nanobots have to be compatible with the body (e.g. no poisonous elements if they were broken down, etc).

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Oct 30, 2023

First-ever wireless device developed to make magnetism appear in non-magnetic materials

Posted by in categories: biotech/medical, computing

Researchers at the UAB and ICMAB have succeeded in bringing wireless technology to the fundamental level of magnetic devices. The emergence and control of magnetic properties in cobalt nitride layers (initially non-magnetic) by voltage, without connecting the sample to electrical wiring, represents a paradigm shift that can facilitate the creation of magnetic nanorobots for biomedicine and computing systems where basic information management processes do not require wiring.

The study was recently published in the latest issue of Nature Communications.

Electronic devices rely on manipulating the electrical and magnetic properties of components, whether for computing or storing information, among other processes. Controlling magnetism using voltage instead of has become a very important control method to improve in many devices, since currents heat up circuits. In recent years, much research has been carried out to implement protocols for applying voltages to carry out this control, but always through directly on the materials.

Oct 30, 2023

1,000+ Qubit Quantum Computer Announced

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

California-based startup Atom Computing has announced a 1,225-qubit quantum computer, the first to break the 1,000+ barrier, which it plans to release in 2024.

Quantum bits, or qubits, are the basic units of information in quantum computing – equivalent to bits in classical computing. Unlike bits, however, qubits can exist in multiple states simultaneously, allowing them to perform calculations that would take millions of years for an ordinary computer.

Oct 30, 2023

Breaking the Quantum Limit: From Einstein-Bohr Debates to Achieving “Unattainable” Efficiency

Posted by in categories: computing, engineering, quantum physics

Researchers at the University of Stuttgart have demonstrated that a key ingredient for many quantum computation and communication schemes can be performed with an efficiency that exceeds the commonly assumed upper theoretical limit — thereby opening up new perspectives for a wide range of photonic quantum technologies.

Quantum science not only has revolutionized our understanding of nature, but is also inspiring groundbreaking new computing, communication, and sensor devices. Exploiting quantum effects in such ‘quantum technologies’ typically requires a combination of deep insight into the underlying quantum-physical principles, systematic methodological advances, and clever engineering. And it is precisely this combination that researchers in the group of Prof. Stefanie Barz at the University of Stuttgart and the Center for Integrated Quantum Science and Technology (IQST) have delivered in recent study, in which they have improved the efficiency of an essential building block of many quantum devices beyond a seemingly inherent limit.

Historical foundations: from philosophy to technology.

Oct 29, 2023

Scientists demonstrate the existence of a universal lower bound on topological entanglement entropy

Posted by in categories: computing, quantum physics

In a new study, scientists from the US and Taiwan have theoretically demonstrated the existence of a universal lower bound on topological entanglement entropy, which is always non-negative. The findings are published in the journal Physical Review Letters.

Quantum systems are bizarre and follow their own rules, with quantum states telling us everything we know about that system. Topological entanglement entropy (TEE) is a measure that provides insights into emergent non-local phenomena and entanglement in with topological properties.

Given the fundamental role of quantum entanglement in and various information applications, understanding TEE becomes essential for gaining insights into the behavior of quantum systems.

Oct 28, 2023

Three-qubit computing platform is made from electron spins

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

A quantum computing platform that is capable of the simultaneous operation of multiple spin-based quantum bits (qubits) has been created by researchers in South Korea. Designed by Yujeong Bae, Soo-hyon Phark, Andreas Heinrich and colleagues at the Institute for Basic Science in Seoul, the system is assembled atom-by-atom using a scanning tunnelling microscope (STM).

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While quantum computers of the future should be able to outperform conventional computers at certain tasks, today’s nascent quantum processors are still too small and noisy to do practical calculations. Much more must be done to create viable qubit platforms that can retain information for long enough for quantum computers to be viable.

Oct 28, 2023

A new way to erase quantum computer errors

Posted by in categories: biotech/medical, computing, quantum physics

Quantum computers of the future hold promise in solving all sorts of problems. For example, they could lead to more sustainable materials and new medicines, and even crack the hardest problems in fundamental physics. But compared to the classical computers in use today, rudimentary quantum computers are more prone to errors. Wouldn’t it be nice if researchers could just take out a special quantum eraser and get rid of the mistakes?

Reporting in the journal Nature, a group of researchers led by Caltech is among the first to demonstrate a type of quantum eraser. The physicists show that they can pinpoint and correct for mistakes in quantum computing systems known as “erasure” errors.

“It’s normally very hard to detect errors in quantum computers, because just the act of looking for errors causes more to occur,” says Adam Shaw, co-lead author of the new study and a graduate student in the laboratory of Manuel Endres, a professor of physics at Caltech. “But we show that with some careful control, we can precisely locate and erase certain errors without consequence, which is where the name erasure comes from.”

Oct 28, 2023

X-ray the nukes: How US plans nuclear safety in this underground lab

Posted by in categories: computing, law

The US has relied on computer simulations since 1992 for verifying the performance of its nuclear stockpile but will soon get more realistic estimates.

Three US national defense labs are engaged in the process of building a test site, one thousand feet under the ground in Albuquerque, New Mexico, that will send powerful X-rays and verify the reliability of the country’s nuclear stockpile, a press release said.

The US nuclear program heavily relied on actual testing of warheads to determine if its stockpile could serve as a deterrent when called upon. This, however, changed in 1992, after then-President George H.W. Bush signed a law calling for a moratorium on nuclear testing.

Oct 28, 2023

Slow-moving quasiparticles make the fastest semiconductor in the world

Posted by in categories: chemistry, computing, mobile phones, transportation

It could improve limits on information transfer speed but is made of a super expensive ingredient that might make it financially infeasible.

Researchers at Columbia University in the US have developed the fastest and most efficient superconductor that works at room temperature, a press release said. The superconductor is made of superatomic material only known by its chemical formula, Re6Se8Cl2.

In a short span of time, silicon has become an integral part of most modern-day equipment ranging from cell phones to cars, computers to smart homes. However, scientists have found that silicon will soon reach its limits. This is because of the atomic structure of the semiconductor.

Oct 28, 2023

ALS patients control home devices with their minds using BCI

Posted by in categories: biotech/medical, computing, neuroscience

“For those who have lost their ability to communicate due to a variety of neurological conditions, there’s a lot of hope to preserve or regain their ability to communicate with family and friends.”

The term “brain-computer interface” (BCI) refers to a technology that creates a direct line of communication between the human brain and an outside object or computer system, opening up a wide range of possibilities for things like device control and neurological study.


Oonal/iStock.

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