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Category: energy – Page 411

Magnetic Hyperbolic Optical Metamaterial Could Advance Thermophotovoltaics

Improving energy efficiencies — nice.

The remarkable properties researchers at the Australian National University (ARC Centre of Excellence CUDOS) and the University of California Berkeley have discovered in a new nano-metamaterial could lead to highly efficient thermophotovoltaic cells. The new artificial material glows in an unusual way when headed.

As shown in the image, the metamaterial comprises 20 stacked alternating layers of 30-nm-thick gold and 45-nm-thick magnesium fluoride dielectric, perforated with 260 × 530 nm holes that are arranged into a 750 × 750 nm square lattice.

Thermophotovoltaics typically use a heated object as a source of radiation that is then converted to electricity by a photovoltaic cell. The caveat is that heated object emits light in all directions and over a broad spectral region, which reduces the efficiency of the light-to-electricity conversion. However, “The demonstrated metamaterial emits thermal radiation predominantly in particular directions and [within] a particular spectral region, which could make the conversion more efficient,” says Dr Sergey Kruk at the Nonlinear Physics Centre in the ANU Research School of Physics and Engineering.

From data to service: the transition to “space-to-space” commerce

Excellent read about future Commerce in Space — could we see an Amazon or a HomeDepot in space?

In space there are no service stations to pull into and get replacement parts for your satellite. Nor is there a towing service if a satellite is in the wrong orbit, a construction contractor to help you build structures, or a “Space Depot” for those who wish to “do-it-themselves” on orbit. In other words, we still operate within a first-generation space industrial enterprise, i.e. all commerce is on Earth, and we only focus on bits (data) coming from monolithic things that go up (i.e., satellites), which eventually die or just come down with no chance of repair or reuse.

Today the commercial space industry focuses exclusively on applications that support launching science, exploration, military, or established earth-bound data communication or delivery services, focusing data to/from space. The lack of technology to support or “markets” to enter has resulted in nebulous, unconsolidated and without-a-critical-mass investment in space-based infrastructure, industrialization, space resources (survey and process maturation) and global utility creation and delivery applications in space. However, all that may finally be changing.

Space applications that are not solely data driven are becoming real. Asteroid mining, fuel depots and commercial space stations are all being actively pursued by companies around the world, as examples of different types of revenue-generating endeavors outside of data-driven end use. These missions and their spacecraft will require greater upkeep, maintenance, repair, and consumable restoration. Consequently, “services” are now being talked about and pursued, executed from one space platform to another. The most talked-about “service” event is providing either consumables (fuel) or failure remediation to satellites on orbit, referred to as “servicing”. However, a handful of companies are seeking to break the shackles that today’s satellites are stuck with at launch, and go well beyond “servicing” into modifying and even constructing new space platforms, on orbit.

The World’s Largest Coal Company is Going Solar

China’s state-owned Shenhua Group Corp. has just signed a memorandum of understanding with Santa Monica based SolarReserve, partnering to bring 1,000 MW of clean energy into China.

Green is going global. More and more countries are getting in on the green energy bandwagon, shifting their energy dependencies from fossil fuel burning to renewable energy. And the biggest recipient of this? Solar.

Countries are increasingly depending on the Sun to provide for their energy needs. And this means the building of bigger and better solar farms.

Lego-like electronic bricks redefines ‘playing with blocks’

Interesting method in controlling energy sources and efficiencies via Quantum legos.

The chrome-plated bricks can conduct electricity, integrate active parts such as LED lights, motor blocks, and even sound, light and proximity sensors. The conductive bricks feature flexible side-arms that ensure electrical connection between two adjacent blocks, and the whole assemblies are powered by a Bluetooth-controlled 9V battery block. The built-in Bluetooth controller lets users change the current’s direction and voltage levels via a mobile application.

That means the Brixo bricks can not only be triggered by sound, light and touch, but also controlled by any Bluetooth connected device, taking the good old Lego bricks further into the IoT world (the Danish company has its entries in the cloud via its Mindstorms Lego series and the augmented reality-capable Nexo Knights toys.

The company is promising open 3D building instructions, an online library of models and hacks to its followers, encouraging a community of Brixo enthusiasts to share their models.

Photonics researchers create first nanoscale ‘optical parametric amplifier’

Nice

Rice University photonics researchers have unveiled a new nanoparticle amplifier that can generate infrared light and boost the output of one light by capturing and converting energy from a second light.

The innovation, the latest from Rice’s Laboratory for Nanophotonics (LANP), is described online in a paper in the American Chemical Society journal Nano Letters (“Toward Surface Plasmon-Enhanced Optical Parametric Amplification (SPOPA) with Engineered Nanoparticles: A Nanoscale Tunable Infrared Source”). The device functions much like a laser, but while lasers have a fixed output frequency, the output from Rice’s nanoscale “optical parametric amplifier” (OPA) can be tuned over a range of frequencies that includes a portion of the infrared spectrum.

Light-Amplifying Nanoparticle

Rice University’s new light-amplifying nanoparticle consists of a 190-nanometer diameter sphere of barium tin oxide surrounded by a 30-nanometer-thick shell of gold. (Image: Alejandro Manjavacas /Rice University)

Humans Are Fatter Than Primates, But It Fuels Our Bigger Brains

Left hemisphere of J. Piłsudski’s brain, lateral view.

A new study has found that a faster metabolism is the main reason that humans were able to evolve bigger brains than other closely related apes. Humans burned 635 more calories per day than gorillas, and a whopping 820 more calories per day than the orangutans in the study.

Although the study findings seem promising, more research on the issue is required since the research was performed only on adults.

Artificial Wombs Just Got One Step Closer to Reality

Scientists have sustained human embryos in a petri dish for 13 days, shattering the previous record of nine days. The breakthrough will allow researchers to study early fetal development in unprecedented detail, and brings us one step closer to viable “artificial wombs.” But it’s adding fuel to an already heated ethical debate.

Two separate papers published this week, one in Nature and one in Nature Cell Biology, have reported culturing human embryos for nearly two weeks, going well beyond previous efforts. There’s no reason to believe that the embryos couldn’t have survived beyond the two-week mark, but the experiment had to be halted to adhere to the internationally agreed 14-day limit on human embryo research.

http://io9.gizmodo.com/how-to-build-an-artificial-womb-476464703

Comcast Can Now Sell You Fiber Speeds Over Coax, Thanks to a New Modem

Gearing up to offer one-gigabit-per-second Internet service in five U.S. cities this year. The first five cities to see the blazing speed are Nashville, Atlanta, Chicago, Detroit, and Miami.

Comcast, the Internet provider everyone loves to hate, is gearing up to offer one-gigabit-per-second Internet service in five U.S. cities this year. The first five cities to see the blazing speed are Nashville, Atlanta, Chicago, Detroit, and Miami. In line with Google Fiber, Verizon FiOs, and municipal offerings at one-gigabit speeds to the home, the new Comcast service will dramatically increase download speeds. Most subscribers currently receive download speeds of 25–100 megabits per second. For the customers with a 100Mbps connection, the increase boosts their speed 10 times over. For customers with 25 megabit connections, it’s 40 times faster. At that rate, one could download a full-length HD movie in around seven seconds. Not bad.

What sets Comcast’s gigabit service apart is the fact that the Internet provider is not using fiber optic lines to achieve the mega-fast speeds. Instead the company is using the existing coaxial cable lines that are already piped into people’s homes, giving Comcast a potentially huge advantage over a project like Google Fiber—which requires digging costly trenches through cities to lay fiber cables.

Hardware Boost

Comcast’s gigabit-over-coax Internet requires a new kind of cable modem. That device is charmingly classified under a new DOCSIS 3.1 standard, an acronym for Data Over Cable Service Interface Specification. And while it looks like any other black box, this new standard is capable of pumping data at 10 Gbps over existing coaxial cable. Still, Comcast is ushering in its new service with only a tenth of that power—currently offering one gigabit per second downstream speeds with 35Mbps upstream.

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