Apr 14

Hawaii clears land use for the Thirty Meter Telescope, construction to start in 2014

Posted in: Today's Chili

Hawaii clears land use for the Thirty Meter Telescope

The Thirty Meter Telescope has been under development for more than a decade, but the sheer amount of land needed on Hawaii’s Mauna Kea for its namesake main mirror has proved problematic: locals have formally challenged the multi-university effort over concerns that it might damage both the environment and natives’ heritage. Regardless of which stance you take on the issue, the project is going forward now that the state’s Board of Land and Natural Resources has granted an official land permit. The move clears an optical and near-infrared telescope with nine times the coverage area of its peers, and three times the sharpness. That’s enough to observe light from 13 billion years ago as well as put a heavy focus on tracking extrasolar planets, including planets in the making. Any impact on science or Mauna Kea will have to wait when construction doesn’t even start until April 2014, although we’re hoping that environmental care requirements attached to the permit will let us appreciate both the early universe and modern-day Earth in equal measure.

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Via: Pacific Business News

Source: Thirty Meter Telescope

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Oct 03

ROHM CIGS near-infrared see-through image sensor

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[CEATEC 2012] The ROHM CIGS (Copper indium gallium (di)selenide) Near-Infrared sensor provides the ability to see  near-infrared light waves that are normally invisible to the naked eye. By capturing near-infrared light, it is possible to see through layers of matter without having to use harmful radiations like X-rays. In some ways, it is similar to techniques used to observe space through thick clouds of dust. (more…)

By Ubergizmo. Related articles: Rohm hydrogen fuel cells are perfect for emergencies, CEATEC Japan 2012 – Day 2 Round-up,

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Aug 24

Harvard makes distortion-free lens from gold and silicon, aims for the perfect image (or signal)

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Harvard makes distortionfree lenses from gold and silicon, aims for the perfect image or signal

Imaging has been defined by glass lenses for centuries, and even fiber optics haven’t entirely escaped the material’s clutch. Harvard’s School of Engineering and Applied Sciences might have just found a way to buck those old (and not-so-old) traditions. A new 60-nanometer thick silicon lens, layered with legions of gold nanoantennas, can catch and refocus light without the distortion or other artifacts that come with having to use the thick, curved pieces of glass we’re used to — it’s so accurate that it nearly challenges the laws of diffraction. The lens isn’t trapped to bending one slice of the light spectrum, either. It can range from near-infrared to terahertz ranges, suiting it both to photography and to shuttling data. We don’t know what obstacles might be in the way to production, which leads us to think that we won’t be finding a gold-and-silicon lens attached to a camera or inside a network connection anytime soon. If the technology holds up under scrutiny, though, it could ultimtately spare us from the big, complicated optics we often need to get just the right shot.

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Harvard makes distortion-free lens from gold and silicon, aims for the perfect image (or signal) originally appeared on Engadget on Sat, 25 Aug 2012 00:00:00 EDT. Please see our terms for use of feeds.

Permalink Phys.org  |  sourceHarvard University  | Email this | Comments

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