Menu

Blog

Page 11

Nov 21, 2024

Observations inspect double-lined spectroscopic binary HD 34736

Posted by in categories: chemistry, space

Using various telescopes, an international team of astronomers has conducted a comprehensive study of a double-lined spectroscopic binary known as HD 34736. The study, published November 6 in the Monthly Notices of the Royal Astronomical Society, delivers important insights into the properties of this system.

So far, the majority of binaries have been detected by Doppler shifts in their , hence these systems are called spectroscopic binaries. Observations show that in some spectroscopic binaries, spectral lines from both stars are visible, and these lines are alternately double and single. These systems are known as double-lined spectroscopic binaries (SB2).

HD 34,736 is an SB2 system consisting of two chemically peculiar late B-type , located some 1,215 light years away. Previous of HD 34,736 have found that the system has an extraordinarily strong magnetic field exceeding 4.5 kG. The effective temperatures of the primary and secondary star were found to be 13,700 and 11,500 K, respectively.

Nov 21, 2024

Chandra and Hubble tune into ‘flame-throwing’ Guitar Nebula

Posted by in categories: entertainment, particle physics, space

Normally found only in heavy metal bands or certain post-apocalyptic films, a “flame-throwing guitar” has now been spotted moving through space. Astronomers have captured movies of this extreme cosmic object using NASA’s Chandra X-ray Observatory and Hubble Space Telescope.

The new movie of Chandra (red) and Palomar (blue) data helps break down what is playing out in the Guitar Nebula. X-rays from Chandra show a of energetic matter and , about two light-years or 12 trillion miles long, blasting away from the pulsar (seen as the bright white dot connected to the filament).

Continue reading “Chandra and Hubble tune into ‘flame-throwing’ Guitar Nebula” »

Nov 21, 2024

2D graphene spin valve leverages van der Waals magnet proximity for efficient spintronics

Posted by in categories: materials, particle physics

Graphene, particularly in its purest form, has long been considered a promising material for developing spintronic devices. These devices leverage the intrinsic angular momentum (i.e., spin), as opposed to the charge, of electrons to transmit and process data.

Nov 21, 2024

Using matter waves, scientists unveil novel collective behaviors in quantum optics

Posted by in categories: particle physics, quantum physics

A research team led by Dominik Schneble, Ph.D., Professor in the Department of Physics and Astronomy, has uncovered a novel regime, or set of conditions within a system, for cooperative radiative phenomena, casting new light on a 70-year-old problem in quantum optics.

Their findings on previously unseen collective spontaneous emission effects, in an array of synthetic (artificial) atoms, are published in Nature Physics, accompanied by a theoretical paper in Physical Review Research.

Spontaneous emission is a phenomenon in which an excited atom falls to a lower-energy state and spontaneously emits a quantum of electromagnetic radiation in the form of a single . When a single excited atom decays and emits a photon, the probability of finding the atom in its falls exponentially to zero as time progresses.

Nov 21, 2024

Study explores the effectiveness of honesty oath for reducing dishonest behaviors

Posted by in category: futurism

Over the past decades, psychologists and policymakers have been trying to devise interventions that could dissuade individuals from engaging in dishonest social behaviors, such as tax evasion or fraud. One promising strategy they identified entails asking people to commit to being honest before they are given the opportunity to engage in dishonest behavior.

While many studies found evidence suggesting that honesty oaths can reduce dishonest , very few explored how different interventions utilizing these oaths compare. Researchers at Aarhus University and other institutes worldwide recently carried out a study investigating the effectiveness of various ex-ante honesty oath interventions.

Their findings, published in Nature Human Behavior, suggest that while different honesty oath-based interventions can successfully curb dishonesty, their effectiveness varies greatly depending on their content. The researchers also identified an intervention that appears to be particularly promising for reducing dishonest behavior.

Nov 21, 2024

Light-activated, drug-carrying liposomes show potential for minimally invasive glaucoma treatments

Posted by in categories: biotech/medical, chemistry, engineering

More than 4 million people in the U.S. have glaucoma, a group of eye diseases that can damage the optic nerve and lead to vision loss. It’s the second-leading cause of blindness worldwide and there’s currently no cure, but there’s a way to help prevent vision loss through early detection and treatment.

The two main treatment options, however, are inefficient and have downsides. Medicated eyedrops are noninvasive but can’t be absorbed for full effectiveness. Repeated injections into the eye can lead to infections or inflammation, not to mention patient discomfort.

Researchers at Binghamton University are exploring several new glaucoma treatments that would be less invasive. In a study recently published in the Journal of Materials Chemistry B, Assistant Professor Qianbin Wang and Ph.D. student Dorcas Matuwana from the Thomas J. Watson College of Engineering and Applied Science’s Department of Biomedical Engineering shared their findings for drug-carrying liposomes that could be activated in the eye using near-infrared light.

Nov 21, 2024

Ultra-compact optical design enhances virtual and augmented reality device cameras

Posted by in categories: augmented reality, drones, mobile phones, nanotechnology, virtual reality

Researchers from Seoul National University College of Engineering announced they have developed an optical design technology that dramatically reduces the volume of cameras with a folded lens system utilizing “metasurfaces,” a next-generation nano-optical device.

By arranging metasurfaces on the so that light can be reflected and moved around in the glass substrate in a folded manner, the researchers have realized a with a thickness of 0.7mm, which is much thinner than existing refractive lens systems. The research was published on Oct. 30 in the journal Science Advances.

Traditional cameras are designed to stack multiple glass lenses to refract light when capturing images. While this structure provided excellent high-quality images, the thickness of each lens and the wide spacing between lenses increased the overall bulk of the camera, making it difficult to apply to devices that require ultra-compact cameras, such as virtual and augmented reality (VR-AR) devices, smartphones, endoscopes, drones, and more.

Nov 21, 2024

When Memories Clash: How the Brain Chooses Between Love and Hunger

Posted by in categories: food, neuroscience, sex

A study found that male worms’ brains can activate conflicting memories, but behavior is driven by the more beneficial one. This research sheds light on how brains prioritize information, offering insights into conditions like PTSD.

A new study by UCL researchers reveals that two conflicting memories can simultaneously be activated in a worm’s brain, even though only one memory directly influences the animal’s behavior.

In the paper published in Current Biology, the researchers showed how an animal’s sex drive can at times outweigh the need to eat when determining behavior, as they investigated what happens when a worm smells an odor that has been linked to both good experiences (mating) and bad experiences (starvation).

Nov 21, 2024

Korean Scientists Achieve Unprecedented Real-Time Capture of Quantum Information

Posted by in categories: chemistry, quantum physics

DGIST and UNIST researchers have discovered a new quantum state, the exciton-Floquet synthesis state, enabling real-time quantum information control in two-dimensional semiconductors.

A research team led by Professor Jaedong Lee from the Department of Chemical Physics at DGIST (President Kunwoo Lee) has unveiled a groundbreaking quantum state and an innovative mechanism for extracting and manipulating quantum information through exciton and Floquet states.

Collaborating with Professor Noejung Park from UNIST’s Department of Physics (President Chongrae Park), the team has, for the first time, demonstrated the formation and synthesis process of exciton and Floquet states, which arise from light-matter interactions in two-dimensional semiconductors. This study captures quantum information in real-time as it unfolds through entanglement, offering valuable insights into the exciton formation process in these materials, thereby advancing quantum information technology.

Nov 21, 2024

Radiation-tolerant FPGAs for space applications from Microchip Technology achieve government QML Class V

Posted by in categories: computing, government, life extension, security

CHANDLER, Ariz. – The radiation-tolerant RTG4 field-programmable gate arrays (FPGAs) with lead-free flip-chip bumps from Microchip Technology Inc. in Chandler, Ariz., have earned the Qualified Manufacturers List (QML) Class V status from the U.S. Defense Logistics Agency (DLA).

These radiation-tolerant FPGAs are for critical space programs. QML Class V is the highest level of qualification for space components for human-rated, deep-space, and national security space programs.

RTG4 FPGAs offer more than 150,000 logic elements, and come in flip-chip package construction where flip-chip bumps connect the silicon die and the package substrate for extended the longevity.

Page 11 of 12,043First89101112131415Last