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Earth’s mountains may have mysteriously stopped growing for a billion years
Starting about 1.8 billion years ago, the planet's continental crust thinned, slowing the flow of nutrients into the sea and possibly stalling the evolution of life.

BY MAYA WEI-HAAS
PUBLISHED FEBRUARY 11, 2021

IF YOU COULD explore Earth’s surface a billion years ago, the most remarkable sight might be the world’s un-remarkability. There would be no trees or bugs, nor birds overhead. The only life is simple and small, a slimy oceanic soup.

And a new study published in Science points to yet another feature that may be missing: towering mountains.

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Francis Villatoro@emulenews
Feb 18, 2021

High-resolution X-ray imaging of 3D objects remains a daunting challenge. New paper reports a potential solution to this problem, using nanocrystals that can trap the energy of X-rays for several weeks with a resolution of about 25 micrometres.

#Nature High-resolution X-ray luminescence extension imaging https://nature.com/articles/s41586-021-03251-6… X-ray luminescence extension imaging with resolution greater than 20 line pairs per millimetre and optical memory longer than 15 days. For radiography and mammography, and radiology.

 
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Genomic Insights into the Formation of Human Populations in East Asia
Nature (2021)

Abstract
The deep population history of East Asia remains poorly understood due to a lack of ancient DNA data and sparse sampling of present-day people1,2. We report genome-wide data from 166 East Asians dating to 6000 BCE – 1000 CE and 46 present-day groups. Hunter-gatherers from Japan, the Amur River Basin, and people of Neolithic and Iron Age Taiwan and the Tibetan plateau are linked by a deeply-splitting lineage likely reflecting a Late Pleistocene coastal migration. We follow Holocene expansions from four regions. First, hunter-gatherers of Mongolia and the Amur River Basin have ancestry shared by Mongolic and Tungusic language speakers but do not carry West Liao River farmer ancestry contradicting theories that their expansion spread these proto-languages. Second, Yellow River Basin farmers at ~3000 BCE likely spread Sino-Tibetan languages as their ancestry dispersed both to Tibet where it forms up ~84% to some groups and to the Central Plain where it contributed ~59-84% to Han Chinese. Third, people from Taiwan ~1300 BCE to 800 CE derived ~75% ancestry from a lineage also common in modern Austronesian, Tai-Kadai and Austroasiatic speakers likely deriving from Yangtze River Valley farmers; ancient Taiwan people also derived ~25% ancestry from a northern lineage related to but different from Yellow River farmers implying an additional north-to-south expansion. Fourth, Yamnaya Steppe pastoralist ancestry arrived in western Mongolia after ~3000 BCE but was displaced by previously established lineages even while it persisted in western China as expected if it spread the ancestor of Tocharian Indo-European languages. Two later gene flows affected western Mongolia: after ~2000 BCE migrants with Yamnaya and European farmer ancestry, and episodic impacts of later groups with ancestry from Turan.

 
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NEWS RELEASE 24-FEB-2021
Accelerator physics: Experiment reveals new options for synchrotron light sources | EurekAlert! Science News
An international team has shown through a sensational experiment how diverse the possibilities for employing synchrotron light sources are.

HELMHOLTZ-ZENTRUM BERLIN FÜR MATERIALIEN UND ENERGIE

1614238494973.png
The illustration visualizes how modulation of electron bunches via laser is used to produce microbunches which emit laserlight.
CREDIT: Tsinghua University


The most modern light sources for research are based on particle accelerators. These are large facilities in which electrons are accelerated to almost the speed of light, and then emit light pulses of a special character. In storage-ring-based synchrotron radiation sources, the electron bunches travel in the ring for billions of revolutions, then generate a rapid succession of very bright light pulses in the deflecting magnets. In contrast, the electron bunches in free-electron lasers (FELs) are accelerated linearly and then emit a single super-bright flash of laser-like light. Storage ring sources as well as FEL sources have facilitated advances in many fields in recent years, from deep insights into biological and medical questions to materials research, technology development, and quantum physics.

Now a Sino-German team has shown that a pattern of pulses can be generated in a synchrotron radiation source that combines the advantages of both systems. The synchrotron source delivers short, intense microbunches of electrons that produce radiation pulses having a laser-like character (as with FELs), but which can also follow each other closely in sequence (as with synchrotron light sources).

The idea was developed about ten years ago under the catchphrase "Steady-State Microbunching" (SSMB) by leading accelerator theorist Alexander Chao and his PhD student Daniel Ratner at Stanford University. The mechanism should also make it possible for storage rings to generate light pulses not only at a high repetition rate, but also as coherent radiation like a laser. The young physicist Xiujie Deng from Tsinghua University, Beijing, took up these ideas in his doctoral work and investigated them further theoretically. Chao established contact with the accelerator physicists at HZB in 2017 who operate the Metrology Light Source (MLS) at PTB in addition to the soft X-ray source BESSY II at HZB. The MLS is the first light source in the world to be optimised by design for operation in what is known as "low alpha mode". The electron bunches can be greatly shortened in this mode. The researchers there have been constantly developing this special mode of operation for more than 10 years. "As a result of this development work, we were now able to meet the challenging physical requirements for empirically confirming the SSMB principle at the MLS", explains Markus Ries, accelerator expert at HZB.

"The theory group within the SSMB team had defined the physical boundary conditions for achieving optimal performance of the machine during the preparatory phase. This allowed us to generate the novel machine states with the MLS and adjust them enough together with Deng until we were able to detect the pulse patterns we were looking for", reports Jörg Feikes, accelerator physicist at HZB. The HZB and PTB experts used an optical laser whose light wave was coupled in precise spatial and temporal synchronisation with the electron bunches in the MLS. This modulated the energies of the electrons in the bunches. "That causes the electron bunches, which are a few millimetres long, to split into microbunches (only 1 μm long) after exactly one revolution in the storage ring, and then to emit light pulses that coherently amplify each other like in a laser", explains Jörg Feikes. "The empirical detection of the coherent radiation was anything but easy, but our PTB colleagues developed an innovative optical detection unit with which the detection was successful."

"The highlight future SSMB sources is that they generate laser-like radiation also beyond the visible spectrum of "light", in the EUV range, for example", comments Prof. Mathias Richter, head of department at PTB. And Ries emphasises: "In the final stage, an SSMB source could provide radiation of a new character. The pulses are intense, focused, and narrow-band. They combine the advantages of synchrotron light with the advantages of FEL pulses, so to speak." Feikes adds: "This radiation is potentially suitable for industrial applications. The first light source based on SSMB specifically for application in EUV lithography is already in the planning stage near Beijing."

The work was published on 24 February 2021 in the leading scientific publication Nature.

 
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NEWS RELEASE 25-FEB-2021
Scientists probe electronic angular momentum to a chemical reaction for the first time

DALIAN INSTITUTE OF CHEMICAL PHYSICS, CHINESE ACADEMY SCIENCES

IMAGE
The left circles are the experimental measurement of the product state-resolved differential cross sections of the F+HD reaction, the right image is the related partial-wave resonance wavefunction of the reaction.
CREDIT: DICP


A chemical reaction can be understood in detail at the quantum state-resolved level, through a combined study of molecular crossed beam experiments and theoretical quantum molecular reaction dynamics simulations.

At a single collision condition, the molecular crossed beam apparatus is able to detect the scattering angle-resolved product with rotational state-resolution. Whereas, with accurate global potential energy surface, quantum reactive scattering theory is able to predict the corresponding reactive scattering information.

In previous studies, the chemical reaction dynamics was revealed only with the product rotational state-resolution. And the investigation of a reaction at a finer level would be an inspiring break through.

Recently, Professor YANG Xueming from the Dalian Institute of Chemical Physics (DICP) of the Chinese Academy of Sciences (CAS) and Professor WANG Xing'an from the University of Science and Technology of China developed molecular crossed beam apparatus with threshold ionization velocity map imaging technique, enabling to probe the scattering product with high angular resolution with quantum rotational-state recognition.

With this powerful apparatus, in combined with new quantum reactive scattering theory developed by Professor SUN Zhigang from the DICP, which included the electronic angular momentum effect, the electronic angular momentum effect to a chemical reaction was revealed for the first time.

This finding was published online in Science on Feb. 25, 2021.

There is distinguished reactive scattering quantum resonance in the F + HD (the Fluorine atom with the HD isotope of the H2 molecule) reaction. It has been taken as the prototype to resolve partial wave resonance structures in a chemical reaction.

With this feature, the scientists thought that the role of the electronic angular momentum of the F atom in this chemical reaction would be recognized. The F atom was characterized by p electronic orbit with l=1, which could influence the partial wave resonance structures.

It was found that, by including the electronic angular momentum, the single partial wave structure would split into four-fold partial wave resonance structure, which was capable of varying the angular distributions of the chemical product.

The energy of the electronic angular momentum is much smaller than the rotational energy of a diatomic molecule (~ several tens wave number). Its influence to a chemical reaction is subtle and difficult to detect.
 
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NEWS RELEASE 3-MAR-2021
Scientists find strongest evidence yet of 'migration gene'
Researchers combined satellite tracking and genome sequencing to pinpoint specific gene

CARDIFF UNIVERSITY

1614934597512.png
Tagged peregrine falcon Must credit Andrew Dixon. CREDIT: Andrew Dixon

A team from the Chinese Academy of Sciences and Cardiff University say they have found the strongest evidence yet of a "migration gene" in birds.

The team identified a single gene associated with migration in peregrine falcons by tracking them via satellite technology and combining this with genome sequencing.


 
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Large-area display textiles integrated with functional systems
Source: Xinhua| 2021-03-11 15:43:24|Editor: huaxia

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A researcher of Fudan University shows the electronic textiles in Shanghai, east China, March 10, 2021. (Xinhua/Liu Ying)

SHANGHAI, March 11 (Xinhua) -- Displays are basic building blocks of modern electronics. Integrating displays into textiles offers exciting opportunities for smart electronic textiles, the ultimate goal of wearable technology, poised to change the way in which people interact with electronic devices.

The study, made by a research team led by macromolecular science professor Peng Huisheng of Shanghai-based Fudan University, was published online in the journal Nature on March 11 in Beijing time.

Display textiles serve to bridge human-machine interactions, offering, for instance, a real-time communication tool for individuals with voice or speech difficulties, according to the research team.

139802378_16154486038381n.jpg
Combo photo shows the electronic textiles before and after being charged with electricity in Shanghai, east China, March 10, 2021. (Xinhua/Liu Ying)

Electronic textiles capable of communicating, sensing and supplying electricity have been reported previously. However, textiles with functional, large-area displays have not yet been achieved, because it is challenging to obtain small illuminating units that are both durable and easy to assemble over a wide area.

The display textile is flexible and breathable and withstands repeated machine-washing, making it suitable for practical applications. The study also shows that an integrated textile system consisting of display, keyboard and power supply can serve as a communication tool, demonstrating the system's potential within the "internet of things" in various areas, including healthcare.

The approach unifies the fabrication and function of electronic devices with textiles, and scientists expect that woven-fibre materials will shape the next generation of electronics, according to the study.

139802378_16154486038361n.jpg
A researcher of Fudan University shows a school symble made with electronic textiles in Shanghai, east China, March 10, 2021. (Xinhua/Liu Ying)
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Macromolecular science professor Peng Huisheng of Fudan University introduces the study on electronic textiles in Shanghai, east China, March 10, 2021. (Xinhua/Liu Ying)
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Photo shows the electronic textiles in Shanghai, east China, March 10, 2021. (Xinhua/Liu Ying)
139802378_16154486038371n.jpg
Macromolecular science professor Peng Huisheng (2nd L) of Fudan University poses for photos with his research team in Shanghai, east China, March 10, 2021. (Xinhua/Liu Ying)
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Photo shows the electronic textiles in Shanghai, east China, March 10, 2021. (Xinhua/Liu Ying)

 
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