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Archive for the ‘computing’ category: Page 246

Mar 25, 2023

The best of both worlds: A new algorithm fuses quantum and classical information for high-quality imaging

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

Researchers from Colorado State University and the Colorado School of Mines have thought up a new computational imaging strategy that exploits the best of both the quantum and classical worlds. They developed an efficient and robust algorithm that fuses quantum and classical information for high-quality imaging. The results of their research were published Dec. 21 in Intelligent Computing.

Recently, the quantum properties of light have been exploited to enable super resolution microscopy. While quantum information brings new possibilities, it has its own set of limitations.

The researchers’ approach is based on classical and quantum correlation functions obtained from photon counts, which are collected from quantum emitters illuminated by spatiotemporally structured illumination. Photon counts are processed and converted into signals of increasing order, which contain increasing spatial frequency information. The higher spatial resolution information, however, suffers from a reduced signal-to-noise ratio at increasingly larger correlation orders.

Mar 25, 2023

The end of text-based passwords? ‘Transparent image moving’ provides a new solution

Posted by in categories: computing, mobile phones, security

It’s past time the world moves away from text-based passwords and verifications for mobile phones and starts embracing more secure image-based solutions, say computer scientists from the University of Surrey.

In a new study, Surrey scientists demonstrate an image-based authentication system called TIM (Transparent Image Moving) for mobile phones to help reduce the risk of shoulder surfing attacks. TIM requires users to select and move predefined images to a designated position for passing authentication checks, similar to those required for .

The proof-of-concept study found that 85% of TIM users believed it could help them to prevent password guessing and shoulder surfing attacks. The study also found that 71% of participants think TIM is a more usable image-based solution than others on the market. The research has been published in the Journal of Information Security and Applications.

Mar 25, 2023

Team devises crystal-clear solution to quantum computing puzzle

Posted by in categories: computing, quantum physics, security

University of Texas at Dallas researchers have developed a new approach that addresses challenges in the field of quantum computing and has the potential to revolutionize computing, communications and electronic security.

To make solid-state qubits, the basic information unit for quantum computers, a defect must be inserted into the to control the spin states of electrons. Creating and positioning the defect, however, especially in the most commonly used solid material——poses a major challenge.

UT Dallas researchers found that making qubits from thin, two-dimensional sheets of crystals called (TMDs) instead of diamond can solve this problem. Led by Dr. Kyeongjae Cho, professor of materials science and engineering in the Erik Jonsson School of Engineering and Computer Science, the researchers published their findings online Dec. 6 in Nature Communications.

Mar 25, 2023

Big improvements to brain-computer interface

Posted by in categories: biotech/medical, chemistry, computing, cyborgs, engineering, neuroscience

When people suffer spinal cord injuries and lose mobility in their limbs, it’s a neural signal processing problem. The brain can still send clear electrical impulses and the limbs can still receive them, but the signal gets lost in the damaged spinal cord.

The Center for Sensorimotor Neural Engineering (CSNE)—a collaboration of San Diego State University with the University of Washington (UW) and the Massachusetts Institute of Technology (MIT)—is working on an implantable brain chip that can record neural electrical signals and transmit them to receivers in the limb, bypassing the damage and restoring movement. Recently, these researchers described in a study published in the journal Nature Scientific Reports a critical improvement to the technology that could make it more durable, last longer in the body and transmit clearer, stronger signals.

The technology, known as a brain-computer interface, records and transmits signals through electrodes, which are tiny pieces of material that read signals from brain chemicals known as neurotransmitters. By recording brain signals at the moment a person intends to make some movement, the interface learns the relevant electrical signal pattern and can transmit that pattern to the limb’s nerves, or even to a prosthetic limb, restoring mobility and motor function.

Mar 25, 2023

Using chemical exfoliation to produce superconducting tungsten disulfide ink

Posted by in categories: chemistry, computing, quantum physics

A team of chemists, engineers, material scientists and physicists from Princeton University, Rutgers University and the University of Regensburg has developed a chemical exfoliation technique to produce single-molecule-thick tungsten disulfide ink. The group describes their technique in a paper published in the journal Science Advances.

As research continues into the creation of truly useful quantum computers, scientists continue to search for new materials that could support such machines. In this new effort, the research team looked into finding ways to print very cold circuits inside quantum computers using superconducting ink.

The new method involved a material consisting of layers of disulfide and potassium. The researchers exfoliated the material by dunking it into a sulfuric acid solution. This dissolved the potassium and left behind single-molecule layers of tungsten disulfide. The final step involved rinsing the acid and remnants in it, leaving the layers of tungsten suspended in a tub of water. In this state, the researchers found that the layers of tungsten disulfide could be used as a form of ink that could be printed onto various types of surfaces, such as plastic, silicon or glass. This left a one-molecule-thick coating on the material.

Mar 25, 2023

A cavity leads to a strong interaction between light and matter

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

Researchers have succeeded in creating an efficient quantum-mechanical light-matter interface using a microscopic cavity. Within this cavity, a single photon is emitted and absorbed up to 10 times by an artificial atom. This opens up new prospects for quantum technology, report physicists at the University of Basel and Ruhr-University Bochum in the journal Nature.

Quantum physics describes photons as light particles. Achieving an interaction between a and a is a huge challenge due to the tiny size of the atom. However, sending the past the atom several times by means of mirrors significantly increases the probability of an interaction.

In order to generate photons, the researchers use artificial atoms, known as . These semiconductor structures consist of an accumulation of tens of thousands of atoms, but behave much like a single atom: when they are optically excited, their energy state changes and they emit a photon. “However, they have the technological advantage that they can be embedded in a ,” says Dr. Daniel Najer, who conducted the experiment at the Department of Physics at the University of Basel.

Mar 25, 2023

Digital restoration of historical documents

Posted by in categories: computing, space

One of the best ways to learn about any historical period is by conversing with the people who lived through it. Speaking with people from the distant past is very one-sided, as they are typically dead and have stopped listening long ago. However, they speak volumes if you have the patience to listen, or rather, read what they say in letters, diaries and primitive post-it notes with no sticky back sides.

An international group of computer scientists from Italy, the U.K. and Pakistan have teamed up to resurrect the dead from writings that have been degraded by time by developing a computer-assisted method to virtually return documents to a more legible and decipherable condition. In their research paper, “Restoration and content analysis of ancient manuscripts via color space based segmentation,” published in the journal PLOS ONE, the team details their digital restoration technique’s method and experimental results.

We get a sense of ancient civilizations from their writings, both trivial and profound. The Sumerian cuneiform writing on reveals 4,000-year-old merchant transactions, geometric calculations, and poetry detailing the fall of a great city. Had they been written on paper and not in clay we would likely not have them today.

Mar 25, 2023

Michael Levin: Epigenetic Adaptation, Bioelectricity, Anatomical Compiler — Learning with Lowell 170

Posted by in categories: biotech/medical, computing, genetics, life extension, neuroscience

Michael Levin is a biologist at Tufts University working on novel ways to understand and control complex pattern formation in biological systems.

Michael Levin links.
Michael’s Twitter: https://twitter.com/drmichaellevin.
Michael’s Website: https://drmichaellevin.org.

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Mar 24, 2023

New experiment translates quantum information between technologies in an important step for the quantum internet

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

Researchers have discovered a way to “translate” quantum information between different kinds of quantum technologies, with significant implications for quantum computing, communication, and networking.

The research was published in the journal Nature on Wednesday. It represents a new way to convert from the format used by quantum computers to the format needed for quantum communication.

Photons—particles of light—are essential for , but different technologies use them at different frequencies. For example, some of the most common technology is based on , such as those used by tech giants Google and IBM; these qubits store quantum information in that move at microwave frequencies.

Mar 24, 2023

Quantum light manipulation breakthrough could lead to advances in computing and metrology

Posted by in categories: computing, quantum physics

The researchers observed it stimulated light emission, which Einstein predicted in 1916, in single photons for the first time.

A team of researchers from the University of Basel and the University of Sydney accomplished a groundbreaking feat by demonstrating the capability to manipulate and identify small numbers of interacting packets of light energy or photons with high correlation for the first time.

The achievement, published in Nature Physics, marks a significant milestone in developing quantum technologies. The researchers observed it stimulated light emission, which Einstein predicted in 1916, in single photons for the first time.