Lifeboat Foundation: Safeguarding Humanity
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Amat farms (antimatter farms) consist of large banks of solar power collectors which power multicolliders optimally designed to produce antiparticles. The vast showers of collision products which result are sorted magnetically; antimatter particles and other useful species are collected, cooled and held in electric/magnetic traps.

The first amat farms were established in 332 orbiting Sol just outside the orbit of Mercury, known collectively as the Circumsol ring. Several power corporations were involved in this effort, including the Look Outwards Combine, Jerusalem Macrotech and General Dynamics Corporation. In 524 the Jerusalem Macrotech station B4 was destroyed during an unsuccessful raid by Space Cowboys.

Amat fields designed to produce anti-protons are typically 100km or more in diameter; fields which produce positrons are considerably smaller. The antiprotons and positrons are usually combined into anti-hydrogen and frozen for easier storage.

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In an effort to improve the efficiency of natural photosynthesis, a researcher at the University of California, Berkeley, has created cyborg bacteria.

These bacteria were trained to grow and cover their bodies with tiny semiconductor nanocrystals that act as efficient solar panels for harvesting sunlight.

Although most life on Earth relies upon photosynthesis as its source of energy, the process has a weak link: chlorophyll. Plants and other organisms use the green pigment to harvest sunlight during photosynthesis, but it is rather inefficient.

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“If astronauts are going to make journeys that span several years, we’ll need to find a way to reuse and recycle everything they bring with them,” says Mark A. Blenner, assistant professor of chemical and biomolecular engineering at Clemson University, South Carolina.

To this end, the Blenner Research Group is looking into the potential uses of a type of yeast called Yarrowia lipolytica, that feeds on the urea content of urine.

With a little genetic engineering the group has proven that the yeast can be used to produce hydrogen and carbon – the atomic ingredients of nutrients like Omega 3, and polyester-based 3D printer filament.

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MOUNTAIN VIEW, Calif. — These days, it’s hardly exotic to see a “made in China” sticker slapped on your favorite product. But what if that sticker said “made in space?”

A Mountain View-based startup earlier this month revealed new breakthroughs in its quest to build in-space factories that will orbit the Earth and pump out products that are too difficult or expensive to make at home. The technology is expected to revolutionize space exploration by allowing scientists access to better tools in space, and also provide people on Earth with unique space-made products such as improved fiber optic cables.

“In-space manufacturing and assembling has been the stuff of science fiction and the dream of the industry for almost the entire existence of the industry,” said Made in Space CEO Andrew Rush, who hosted journalists and NASA representatives at his company’s headquarters for a demo. “But now, for the first time, we’re making these really transformative steps toward making that a reality.”

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DUBLIN, August 21, 2017 /PRNewswire/.

The “Regenerative Medicine Market, 2014 — 2025” report has been added to Research and Markets’ offering.

The global regenerative medicine market size is expected to reach USD 5.59 billion by 2025, according to this new report. Increased prevalence of neurodegenerative, orthopedic, and other aging-related disorders in geriatric population coupled with rising global geriatric population is anticipated to drive market growth.

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