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Jun 11, 2020

Aqua-Fi: Underwater WiFi developed using LEDs and lasers

Posted by in category: internet

Aquatic internet that sends data through light beams could enable divers to instantly transmit footage from under the sea to the surface.

The is an indispensable communication tool, connecting tens of billions of devices worldwide, and yet we struggle to connect to the web from under water. “People from both academia and industry want to monitor and explore underwater environments in detail,” explains the first author, Basem Shihada. Wireless internet under the sea would enable divers to talk without hand signals and send live data to the surface.

Underwater communication is possible with radio, acoustic and signals. However, radio can only carry data over , while acoustic signals support long distances, but with a very limited data rate. Visible light can travel far and carry lots of data, but the narrow light beams require a clear line of sight between the transmitters and receivers.

Jun 11, 2020

Squid and octopus can edit and direct their own brain genes

Posted by in categories: biotech/medical, evolution, genetics, neuroscience

Circa 2017


Unlike other animals, cephalopods – the family that includes octopuses, squid and cuttlefish – do not obey the commands of their DNA to the letter.

Instead, they sometimes interfere with the code as it is being carried by a molecular “messenger”. This has the effect of diversifying the proteins their cells can produce, leading to some interesting variations.

Continue reading “Squid and octopus can edit and direct their own brain genes” »

Jun 11, 2020

Extremely brilliant giga-electron-volt gamma rays from a two-stage laser-plasma accelerator

Posted by in categories: engineering, particle physics, space

Laser-wakefield accelerators have led to the development of compact, ultrashort X-ray or gamma-ray sources to deliver peak brilliance, similar to conventional synchrotron sources. However, such sources are withheld by low efficiencies and limited to 107–8 photons per shot in the kiloelectron volt (KeV) to megaelectron volt (MeV) range. In a new report now published on Science Advances, Xing-Long Zhu and a research team in physics and astronomy in China and the U.K., presented a new approach to efficiently produce collimated, ultrabright gamma (γ)-ray beams. The resulting photon energies were tunable for up to gigaelectron volts by focussing a multi-petawatt laser pulse into a 2-stage wakefield accelerator. The high-intensity laser allowed them to efficiently generate a multi-gigaelectron volt electron beam with a high density and charge during the first stage of the experiment. The laser and electron beams entered a high-density plasma region in the second stage thereafter. Using numerical simulations, they demonstrated the production of more than 1012 gamma ray photons per shot with energy conversion efficiency above 10 percent for photons above 1 megaelectron volt (MeV) and achieved a peak brilliance above 1026 photons S-1 mm-2 mrad-2 per 0.1 percent bandwidth at 1 MeV. This research outcome will offer new avenues in both fundamental and applied physics and engineering.

Bright sources of high-energy gamma rays are versatile for broad areas of applications, including fundamental research in astrophysics, particle and nuclear physics, as well as high-resolution imaging. Researchers can improve such applications with compact gamma ray sources with low divergence, short pulse duration, high energy, and high peak brilliance. While widely used synchrotrons and X-ray free electron lasers (XFELS) can deliver X-ray pulses with peak brilliance, they are limited to low photon energies. The size and cost of such research structures can also limit their regular applications. Researchers have therefore rapidly developed compact laser-wakefield accelerators (LWFAs) in the past two decades to offer a radically different approach to drive the acceleration and radiation of high-energy particles on a much smaller scale. Continuous advancements in the field of ultrahigh-power laser technology will enable brilliant high-energy gamma sources.

Jun 11, 2020

Cheese Triggers the Same Part of Brain as Hard Drugs

Posted by in categories: biotech/medical, chemistry, food, neuroscience

Independent.co.uk

Cheese contains a chemical found in addictive drugs, scientists have found.

The team behind the study set out to pin-point why certain foods are more addictive than others.

Continue reading “Cheese Triggers the Same Part of Brain as Hard Drugs” »

Jun 11, 2020

Scientists discover ‘snooze button’ that could induce ‘hibernation’

Posted by in category: neuroscience

Being able to put someone in a state of suspended animation may be a step closer after scientists found the trigger in mammal brains that can induce hibernation.

Researchers from the University of Tsukuba and Harvard Medical School identified the ‘snooze button’ in mice that triggered naturally occurring temporary hibernation.

Continue reading “Scientists discover ‘snooze button’ that could induce ‘hibernation’” »

Jun 11, 2020

Scientists grow ‘model’ human embryos from stem cells

Posted by in categories: biotech/medical, innovation

Paris (AFP) — Scientists have developed a human embryo “blueprint” using human stem cells, in a breakthrough that could provide vital insight into the early stages of infant development, new research showed Thursday.

Teams from the University of Cambridge and the Netherlands-based Hubrecht Institute said their model will allow them to observe never-before-seen processes underlying the formation of the human body.

The layout of humans — known as the body plan — happens through a process known as gastrulation, where three distinct layers of cells are formed in the embryo that will later give rise to the body’s three main systems: nervous, musculoskeletal and digestive.

Jun 11, 2020

Quantum ‘fifth state of matter’ observed in space for first time

Posted by in categories: particle physics, quantum physics

Paris (AFP) — Scientists have observed the fifth state of matter in space for the first time, offering unprecedented insight that could help solve some of the quantum universe’s most intractable conundrums, research showed Thursday.

Bose-Einstein condensates (BECs) — the existence of which was predicted by Albert Einstein and Indian mathematician Satyendra Nath Bose almost a century ago — are formed when atoms of certain elements are cooled to near absolute zero (0 Kelvin, minus 273.15 Celsius).

At this point, the atoms become a single entity with quantum properties, wherein each particle also functions as a wave of matter.

Jun 11, 2020

Lazareth built La Moto Volante 496 Flying Motorcycle

Posted by in category: transportation

This motorcycle can transform into a hoverbike.

Jun 11, 2020

Covid-19 Patient Gets Double Lung Transplant, Offering Hope for Others

Posted by in category: biotech/medical

“The operation is believed to be the first of its kind in the U.S. The patient, a woman in her 20s, had been healthy, but the coronavirus devastated her lungs.”


A young woman whose lungs were destroyed by the coronavirus received a double lung transplant last week at Northwestern Memorial Hospital in Chicago, the hospital reported on Thursday, the first known lung transplant in the United States for Covid-19.

The 10-hour surgery was more difficult and took several hours longer than most lung transplants because inflammation from the disease had left the woman’s lungs “completely plastered to tissue around them, the heart, the chest wall and diaphragm,” said Dr. Ankit Bharat, the chief of thoracic surgery and surgical director of the lung transplant program at Northwestern Medicine, which includes Northwestern Memorial Hospital, in an interview.

Continue reading “Covid-19 Patient Gets Double Lung Transplant, Offering Hope for Others” »

Jun 11, 2020

The Fourth Industrial Revolution is here. We need a new education model

Posted by in category: education

The job market of tomorrow will require people to develop their technical capacity in tandem with human-only skills.