Thursday, 30 August 2018

Solar eruptions may not have slinky-like shapes after all

more »
As the saying goes, everything old is new again. While the common phrase often refers to fashion, design, or technology, scientists have found there is some truth to this mantra even when it comes to research. Revisiting some older data, the researchers discovered new information about the shape of coronal mass ejections (CMEs) -- large-scale eruptions of plasma and magnetic field from the sun -- that could one day help protect satellites in space as well as the electrical grid on Earth.
via Science Daily
Zazzle Space Exploration market place

Wednesday, 29 August 2018

How a NASA scientist looks in the depths of the great red spot to find water on Jupiter

more »
One critical question has bedeviled astronomers for generations: Is there water deep in Jupiter's atmosphere, and if so, how much?
via Science Daily
Zazzle Space Exploration market place

Unstoppable monster in the early universe

more »
Astronomers obtained the most detailed anatomy chart of a monster galaxy located 12.4 billion light-years away. Using the Atacama Large Millimeter/submillimeter Array (ALMA), the team revealed that the molecular clouds in the galaxy are highly unstable, which leads to runaway star formation.
via Science Daily
Zazzle Space Exploration market place

Stars vs. dust in the Carina Nebula

more »
The Carina Nebula, one of the largest and brightest nebulae in the night sky, has been beautifully imaged by ESO's VISTA telescope at the Paranal Observatory in Chile. By observing in infrared light, VISTA has peered through the hot gas and dark dust enshrouding the nebula to show us myriad stars, both newborn and in their death throes.
via Science Daily
Zazzle Space Exploration market place

Tuesday, 28 August 2018

Stellar 'swarms' help astronomers understand the evolution of stars

more »
Researchers have identified nearly a thousand potential members and 31 confirmed members of stellar associations -- stars of similar ages and compositions that are drifting together through space -- in our own corner of the Milky Way. Their research could help astronomers understand the evolution of stars and the properties of future exoplanet discoveries.
via Science Daily
Zazzle Space Exploration market place

Saturday, 25 August 2018

NASA's OSIRIS-REx begins asteroid operations campaign

more »
OSIRIS-REx caught its first glimpse of asteroid Bennu last week and began the final approach toward its target.
via Science Daily
Zazzle Space Exploration market place

Wednesday, 22 August 2018

New galaxy found?

more »
A student spotted what looked like a 'smudge' last summer on deep sky images. Astronomers have now announced that it was very likely a new galaxy about 37 million lightyears away -- a part of the Leo I galaxy group that is 'lowest surface brightness object ever detected via integrated light.'
via Science Daily
Zazzle Space Exploration market place

Tuesday, 21 August 2018

Ice confirmed at the moon's poles

more »
Using data from NASA's Moon Mineralogy Mapper instrument, scientists have identified three specific signatures that definitively prove there is water ice at the surface of the Moon.
via Science Daily
Zazzle Space Exploration market place

Monday, 20 August 2018

Can we have a fire in a highly vacuumed environment?

more »
Researchers have discovered that non-flaming combustion (smoldering) of a porous specimen can sustain, even under nearly 1 percent of atmospheric pressure. The thermal structure of a 2-mm-diameter burning specimen at very near extinction condition was successfully measured using an embedded ultra-fine thermocouple, clarifying the key issues that lead to fire extinction at low pressures. The outcome of this research will contribute to improved space exploration fire safety strategies.
via Science Daily
Zazzle Space Exploration market place

Light from ancient quasars helps confirm quantum entanglement

more »
New research boosts the case for quantum entanglement. Scientists have used distant quasars, one of which emitted its light 7.8 billion years ago and the other 12.2 billion years ago, to determine the measurements to be made on pairs of entangled photons. They found correlations among more than 30,000 pairs of photons -- far exceeding the limit for a classically based mechanism.
via Science Daily
Zazzle Space Exploration market place

New kind of aurora is not an aurora at all

more »
Thin ribbons of purple and white light that sometimes appear in the night sky were dubbed a new type of aurora when brought to scientists' attention in 2016. But new research suggests these mysterious streams of light are not an aurora at all but an entirely new celestial phenomenon.
via Science Daily
Zazzle Space Exploration market place

Saturday, 18 August 2018

Water-worlds are common: Exoplanets may contain vast amounts of water

more »
Scientists have shown that water is likely to be a major component of those exoplanets (planets orbiting other stars) which are between two to four times the size of Earth. It will have implications for the search of life in our Galaxy.
via Science Daily
Zazzle Space Exploration market place

Friday, 17 August 2018

Astronomers observe cosmic steam jets and molecules galore

more »
A team of scientists using the highest-frequency capabilities of the Atacama Large Millimeter/submillimeter Array (ALMA) has uncovered jets of warm water vapor streaming away from a newly forming star. The researchers also detected the 'fingerprints' of an astonishing assortment of molecules near this stellar nursery.
via Science Daily
Zazzle Space Exploration market place

Smallest transistor switches current with a single atom in solid electrolyte

more »
Researchers have developed a single-atom transistor, the world's smallest. This quantum electronics component switches electrical current by controlled repositioning of a single atom, now also in the solid state in a gel electrolyte. The single-atom transistor works at room temperature and consumes very little energy, which opens up entirely new perspectives for information technology.
via Science Daily

Thursday, 16 August 2018

Twisted electronics open the door to tunable 2-D materials

more »
Researchers report an advance that may revolutionize the field of 2-D materials such as graphene: a 'twistronic' device whose characteristics can be varied by simply varying the angle between two different 2-D layers placed on top of one another. The device provides unprecedented control over the angular orientation in twisted-layer devices, and enables researchers to study the effects of twist angle on electronic, optical, and mechanical properties in a single device.
via Science Daily

Hubble paints picture of the evolving universe

more »
Hubble and other space and ground-based telescopes, astronomers have assembled one of the most comprehensive portraits yet of the universe's evolutionary history.
via Science Daily
Zazzle Space Exploration market place

Structurally 'inside-out' planetary nebula discovered

more »
Researchers have discovered the unusual evolution of the central star of a planetary nebula in our Milky Way galaxy. The finding sheds light on the future evolution, and more importantly, the ultimate fate of the Sun.
via Science Daily
Zazzle Space Exploration market place

Settling Arguments About Hydrogen With 168 Giant Lasers

more »
Scientists at Lawrence Livermore National Laboratory said they were “converging on the truth” in an experiment to understand hydrogen in its liquid metallic state.
via New York Times

Hubble Paints Picture of the Evolving Universe


Astronomers have just assembled one of the most comprehensive portraits yet of the universe’s evolutionary history, based on a broad spectrum of observations by the Hubble Space Telescope and other space and ground-based telescopes. In particular, Hubble’s ultraviolet vision opens a new window on the evolving universe, tracking the birth of stars over the last 11 billion years back to the cosmos’ busiest star-forming period, about 3 billion years after the big bang. This photo encompasses a sea of approximately 15,000 galaxies — 12,000 of which are star-forming — widely distributed in time and space.


via Hubble - News feed
http://hubblesite.org/news_release/news/2018-35

Sprawling galaxy cluster found hiding in plain sight

more »
Scientists have uncovered a sprawling new galaxy cluster hiding in plain sight. The cluster, which sits a mere 2.4 billion light years from Earth, is made up of hundreds of individual galaxies and surrounds an extremely active supermassive black hole, or quasar.
via Science Daily
Zazzle Space Exploration market place

Study of material surrounding distant stars shows Earth's ingredients 'pretty normal'

more »
The Earth's building blocks seem to be built from 'pretty normal' ingredients, according to researchers working with the world's most powerful telescopes. Scientists have measured the compositions of 18 different planetary systems from up to 456 light years away and compared them to ours, and found that many elements are present in similar proportions to those found on Earth. This will have implications for finding Earth-like bodies elsewhere.
via Science Daily
Zazzle Space Exploration market place

Wednesday, 15 August 2018

New Swiss banknote features CERN

A specimen of the new Swiss 200 franc note (Image: Swiss National Bank)

Each note in the ninth series of Swiss bank notes has been designed to tell a story about one aspect of the world, seen from a Swiss angle. The first of the new series to be released, the 50 franc note, tells a story of the wind, how it circulates around the globe, spreads the seeds of wild flowers, and allows the intrepid to enjoy the Swiss Alps from a vantage point beneath the canopy of a paraglider riding currents of mountain air. The 20 franc note is all about light, while the 10 tells a story about time. On 22 August, the 200 franc note, whose story is all about matter, joins them.

The Swiss National Bank keeps the identity of each note a closely guarded secret until the note is released, but the core design elements have been visible for all to see on the SNB website since the first note was issued on 6 April 2016. Each note features a hand, a globe, a location in Switzerland and an object. The location and the object for the 200 franc note are not hard to identify as representing CERN and the transformation of energy and matter in the LHC.


via CERN: Updates for the general public
https://home.cern/about/updates/2018/08/new-swiss-banknote-features-cern

Tuesday, 14 August 2018

Early opaque universe linked to galaxy scarcity

more »
A team of astronomers has made a surprising discovery: 12.5 billion years ago, the most opaque place in the universe contained relatively little matter.
via Science Daily
Zazzle Space Exploration market place

Long-sought carbon structure joins graphene, fullerene family

more »
Scientists have been playing with pure carbon compounds for centuries, starting with diamond and graphite and now with fullerenes, nanotubes and graphene. One type of 3D geometry has been missing, however: a negatively curved carbon-cage surface called schwarzite. Chemists have now shown that serendipitously produced materials called zeolite-templated carbons are in fact the long-sought schwarzites. Their recipe for making schwarzites could make them practical in electronics and gas storage.
via Science Daily

Unraveling the nature of 'whistlers' from space in the lab

more »
Scientists have presented research on a curious cosmic phenomenon known as 'whistlers' -- very low frequency packets of radio waves that race along magnetic field lines. The study provides new insights into the nature of whistlers and space plasmas and could one day aid in the development of practical plasma technologies with magnetic fields, including spacecraft thrusters that use charged particles as fuel.
via Science Daily
Zazzle Space Exploration market place

Flipping the switch on supramolecular electronics

more »
Engineers have successfully combined photoswitchable molecular lattices with layered materials to create new high-performance devices that show macroscopic responses to light.
via Science Daily

From windows to Mars: Scientists debut super-insulating gel

more »
A new gel could increase energy efficiency in skyscrapers and help scientists to build habitats on Mars.
via Science Daily
Zazzle Space Exploration market place

Monday, 13 August 2018

Historic space weather could clarify what's next

more »
Scientists have discovered an underlying repeatable pattern in how space weather activity changes with the solar cycle - having analysed solar activity for the last half century.
via Science Daily
Zazzle Space Exploration market place

Earth mini-moons: Potential for exciting scientific and commercial opportunities

more »
The detection of 'mini-moons' -- small asteroids temporarily captured in orbit around Earth -- will vastly improve our scientific understanding of asteroids and the Earth-moon system. Small and fast-moving, they have evaded detection by existing technology, with only one confirmed mini-moon discovery to date. The advent of the Large Synoptic Survey Telescope could verify their existence and track their paths around our planet, presenting exciting scientific and commercial opportunities.
via Science Daily
Zazzle Space Exploration market place

Converting carbon dioxide into methane or ethane selectively

more »
Researchers have developed high-efficiency photocatalysts that convert carbon dioxide into methane or ethane with graphene-covered reduced titanium dioxide. The finding is expected to be utilized in the carbon dioxide reduction and recycling industries.
via Science Daily

Double eclipse

more »

Space Science Image of the Week: The Proba-2 satellite saw two partial solar eclipses on Saturday
via ESA Space Science
http://www.esa.int/ESA_Multimedia/Images/2018/08/Partial_solar_eclipse_from_space

Sunday, 12 August 2018

Parker Solar Probe launches on historic journey to touch the sun

more »
Hours before the rise of the very star it will study, NASA's Parker Solar Probe launched from Florida Sunday to begin its journey to the Sun, where it will undertake a landmark mission. The spacecraft will transmit its first science observations in December, beginning a revolution in our understanding of the star that makes life on Earth possible.
via Science Daily
Zazzle Space Exploration market place

NASA to Make Second Parker Solar Probe Launch Attempt

more »
The spacecraft, which NASA says will “touch the sun,” was unable to get off the launchpad early Saturday morning because of technical issues.
via New York Times

Friday, 10 August 2018

Watch NASA’s Parker Solar Probe Launch

more »
There’s a lot we don’t know about the sun and its power, and this mission will help to fill in the blanks in the years to come.
via New York Times

Touching the Sun

more »
NASA’s Parker Solar Probe will fly through the punishing heat of the sun’s outer atmosphere.
via New York Times

Vote for your favourite picture from the CERN Photowalk

The best 20 photographs from the 2018 CERN Photowalk as chosen by the jury

Our jury has selected the 20 best pictures from our Photowalk. Now, you can help pick one of the three photos that will be submitted to the Global Physics Photowalk contest.

On 1 June 2018, 20 photographers visited CERN for an exclusive opportunity to explore the world’s largest particle physics laboratory and record behind-the-scenes views with their lenses as part of a Physics Photowalk. This year, for the fourth time, CERN has teamed up with major science laboratories around the world for an international photography competition: the 2018 Global Physics Photowalk.

For the competition at CERN, we opened the doors of four unique spaces in the laboratory: the photographers discovered the SMI2 hall where magnets for the Large Hadron Collider’s High-Luminosity upgrade are being built; one of the workshops for manufacture and testing magnets; the CERN Control Centre, from where the laboratory’s entire accelerator complex is controlled; and the Antiproton Decelerator, also known as the “Antimatter Factory”.

A jury from CERN has chosen the 20 best photos from the event. The jury was composed of Cassandre Simon-Poirier, an artist who spent a few months at CERN as part of the Arts at CERN programme; Julien Ordan, a photographer from CERN’s Audiovisual Production Team; and Nicolas Peray, representative of the CERN Photo Club.

In addition to picking these best photos, they also chose two of the three winners of the CERN competition, which will be sent to the Global Physics Photowalk contest. We need your help to choose the third photo from CERN.

Follow this link and vote for the one you like the most: https://cern.ch/photowalk2018/vote


via CERN: Updates for the general public
https://home.cern/about/updates/2018/08/vote-your-favourite-picture-cern-photowalk

Today the Parker Solar Probe Is Named for Him. 60 Years Ago, No One Believed His Ideas About the Sun.

more »
Eugene N. Parker predicted the existence of solar wind in 1958. The NASA spacecraft, scheduled to launch on Saturday, is the first named for a living person.
via New York Times

Students digging into data archive spot mysterious X-ray source

more »

An enigmatic X-ray source revealed as part of a data-mining project for high-school students shows unexplored avenues hidden in the vast archive of ESA’s XMM-Newton X-ray Observatory.


via ESA Space Science
http://www.esa.int/Our_Activities/Space_Science/Students_digging_into_data_archive_spot_mysterious_X-ray_source

Balloon-borne telescope looks for cosmic gamma rays

more »
Cosmic gamma rays can provide us with important insights into the high-energy phenomena in our universe. The GRAINE (Gamma-Ray Astro-Imager with Nuclear Emulsion) collaboration aims to high resolution record high-energy cosmic gamma rays using a balloon-borne nuclear emulsion telescope. In April 2018 the team successfully completed another balloon flight test.
via Science Daily
Zazzle Space Exploration market place

For UW physicists, the 2-D form of tungsten ditelluride is full of surprises

more »
Researchers report that the 2-D form of tungsten ditelluride can undergo 'ferroelectric switching.' Materials with ferroelectric properties can have applications in memory storage, capacitors, RFID card technologies and even medical sensors -- and tungsten ditelluride is the first exfoliated 2-D material known to undergo ferroelectric switching.
via Science Daily

Thursday, 9 August 2018

Tying down electrons with nanoribbons

more »
Nanoribbons are promising topological materials displaying novel electronic properties. Chemists and physicists have found a way to join two different types of nanoribbon to create a topological insulator that confines single electrons to the junction between them. Alternating nanoribbon types create a chain of interacting electrons that act as metals, insulators or interacting spins -- qubits for a quantum computer -- depending on separation. This opens the door to designer materials with unique quantum properties.
via Science Daily

Pence Advances Plan to Create a Space Force

more »
Once reluctant, Defense Secretary Mattis is now on board with the plan.
via New York Times

Ultrahot planets have starlike atmospheres

more »
An unusual kind of star-planet hybrid atmosphere is emerging from studies of ultrahot planets orbiting close to other stars.
via Science Daily
Zazzle Space Exploration market place

Quantum chains in graphene nanoribbons

more »
Researchers have achieved a breakthrough that could in future be used for precise nanotransistors or -- in the distant future -- possibly even quantum computers, as the team reports.
via Science Daily

Spinning heat shield for future spacecraft

more »
A newly developed prototype flexible heat shield for spacecraft could reduce the cost of space travel and even aid future space missions to Mars.
via Science Daily
Zazzle Space Exploration market place

Satellite measurements of the Earth's magnetosphere promise better space weather forecasts

more »
A Japan-based research team led by Kanazawa University equipped the Arase satellite with sensors to study the convoluted interactions between high-energy particles in the inner magnetosphere and the Earth's electric and magnetic field. They have collected their first set of data from the satellite and from ground-based sensors, which they will soon analyze. Their approach promises to provide better predictions of harmful bursts of high-energy particles from the magnetosphere.
via Science Daily
Zazzle Space Exploration market place

Wednesday, 8 August 2018

Elliptical elegance in glittering host of galaxies

more »
A glittering host of galaxies populate this rich image taken with ESO's VLT Survey Telescope, a state-of-the-art 2.6-m telescope designed for surveying the sky in visible light. The features of the multitude of galaxies strewn across the image allow astronomers to uncover the most delicate details of galactic structure.
via Science Daily
Zazzle Space Exploration market place

New measurement of particle’s lifetime intrigues physicists

A proton–proton collision event detected by LHCb earlier this year.

A new measurement of one of a particle’s properties can sometimes throw up a value that, intriguingly, is very different from previous values. In a paper posted online and submitted to the journal Physical Review Letters, the LHCb collaboration at CERN reports precisely that for the lifetime of the so-called charmed omega. Using data from proton–proton collisions, the LHCb researchers have obtained a value for the particle’s lifetime that is nearly four times larger than previous measurements. New studies are already being planned to unravel this intriguing discrepancy, at LHCb and other experiments.

The charmed omega belongs to a family of particles known as baryons. These particles, of which protons and neutrons are examples, comprise three smaller particles called quarks. But unlike protons, which contain three light quarks and are stable, the charmed omega contains two relatively light quarks and a heavier charm quark (the third heaviest of the six known types of quark), and eventually decays into other particles. Measurements of the lifetimes of charmed particles, and more generally of particles containing heavy quarks, are important because they test models of quantum chromodynamics – the theory that describes how quarks are stuck together by gluons.

The lifetime of the charmed omega was measured more than a decade ago by the E687 and FOCUS collaborations at Fermilab in the US and by the WA89 collaboration at CERN. These collaborations measured the lifetime of the charmed omega by examining some dozens of charmed-omega decays in experiments in which a beam of particles strikes the nuclei in a fixed target. The average of the values measured by these experiments, which are all relatively close to one another, is 69 ± 12 femtoseconds (one femtosecond is a millionth of a billionth of a second).

The new LHCb measurement is based on proton–proton collision data comprising about 1000 charmed-omega decays. The LHCb researchers determined the particle’s lifetime by comparing these decays with those of another particle whose lifetime is known very precisely; a similar approach was recently used by the team to determine the lifetime of a “doubly charmed” particle. The charmed-omega result – a lifetime of 268 ± 26 femtoseconds – is much larger than the average of the older values.

However, none of these measurements contradicts the theoretical estimates of the charmed omega’s lifetime, which rely on subtle calculations based on quantum chromodynamics and include predictions ranging from 60 to 520 femtoseconds. The jury is therefore out on whether the older values or the new one will stand, but the discrepancy between the values will no doubt prompt researchers to make new measurements and revise the theoretical estimates. 


via CERN: Updates for the general public
https://home.cern/about/updates/2018/08/new-measurement-particles-lifetime-intrigues-physicists

Aboard the ISS, researchers investigate complex dust behavior in plasmas

more »
400 kilometers above Earth, researchers examined waves in complex plasma under microgravity conditions and found that the microparticles behaved in nonuniform ways in the presence of varying electrical fields. They report some of the first findings from the Plasma-Kristall 4 experiment.
via Science Daily
Zazzle Space Exploration market place

Tuesday, 7 August 2018

Aboard the ISS, researchers investigate complex dust behavior in plasmas

more »
Four hundred kilometers above Earth, researchers examined waves in complex plasma under microgravity conditions and found that the microparticles behaved in nonuniform ways in the presence of varying electrical fields. They report some of the first findings from the Plasma-Kristall 4 (PK-4) experiment in a new paper.
via Science Daily
Zazzle Space Exploration market place

Largest haul of extrasolar planets

more »
Forty-four planets in planetary systems beyond our own have been unveiled in one go, dwarfing the usual number of confirmations from extrasolar surveys, which is typically a dozen or less. The findings will improve our models of planetary systems and may help researchers investigate exoplanet atmospheres. Novel techniques developed to validate the find could hugely accelerate the confirmation of more extrasolar planet candidates.
via Science Daily
Zazzle Space Exploration market place

Million fold increase in the power of waves near Jupiter's moon Ganymede

more »
Chorus waves are electromagnetic waves. Converted to sound they sound like singing and chirping birds at dawn. They can cause polar lights above the Earth as well as damage to satellites. Now, a team of researchers has found that such waves are intensified million-fold around Jupiter's moon Ganymede. This study provides important observational constraints for theoretical studies.
via Science Daily
Zazzle Space Exploration market place

Monday, 6 August 2018

NASA's Planet-hunting TESS catches a comet before starting science

more »
Before NASA's Transiting Exoplanet Survey Satellite (TESS) started science operations on July 25, 2018, the planet hunter sent back a stunning sequence of serendipitous images showing the motion of a comet.
via Science Daily
Zazzle Space Exploration market place

Oldest-ever igneous meteorite contains clues to planet building blocks

more »
Scientists believe the solar system was formed some 4.6 billion years ago when a cloud of gas and dust collapsed under gravity possibly triggered by a cataclysmic explosion from a nearby massive star or supernova. As this cloud collapsed, it formed a spinning disk with the sun in the center. Since then scientists have been able to establish the formation of the solar system piece by piece.
via Science Daily
Zazzle Space Exploration market place

Dusty deities

more »

Space Science Image of the Week: Rosetta spent two years mapping the dusty, uneven surface of its celestial target, Comet 67P/Churyumov-Gerasimenko
via ESA Space Science
http://www.esa.int/ESA_Multimedia/Images/2018/08/Comet_horizon

Aiming for the Stars, and a Chunk of Rock, in Senegal

more »
On a mission to improve science education, the country got a lift with the arrival of an international team of astronomers viewing the far reaches of space.
via New York Times

Friday, 3 August 2018

Nanotube 'rebar' makes graphene twice as tough

more »
Researchers have found that reinforcing graphene with embedded carbon nanotubes makes the 2D nanomaterial more than twice as tough as pristine graphene.
via Science Daily