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Friday, 17 February 2012

THE BEAUTY OF SCIENCE IN PICTURES


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THE BEAUTY OF SCIENCE: A GALLERY
Remy Melina,
Live Science, 9 February 2012.

Scientifically Artistic, Artistically Scientific!

When most people think of art, they don't exactly picture chromatography or the simulation of water vapour, but scientists with an eye for beauty have compiled a gallery of breathtaking images that resulted from their research.

Here are our favourite "science as art" photos, taken by researchers at the U.S. Department of Energy's Oak Ridge National Laboratory from 2008 to 2011.

1. Laser Light Show

Laser Light Show
Credit: Courtesy of Oak Ridge National Laboratory | U.S. Dept. of Energy

What could pass for an artwork on display at the Museum of Modern Art is actually a stack of quartz plates that are illuminated by laser beams. This "pulsed laser deposition" technique is used to control the growth process of oxide-based energy on the atomic scale.

2. A Different Kind of Orange Tree

A Different Kind of Orange Tree
Credit: Courtesy of Oak Ridge National Laboratory | U.S. Dept. of Energy

What appears to be an avant-garde painting of a tree is actually a hexagonal arrangement of integrated silicon pillars. This bifurcating, or tree-like, network of microscopic channels was originally produced in black and white, but was colorized afterward.

3. Crimson & Gold

Crimson & Gold
Credit: Courtesy of Oak Ridge National Laboratory | U.S. Dept. of Energy

What appears to be a work of abstract art is actually a picture taken by a scanning tunnelling microscope (STM), which is an electron microscope that is used for studying surfaces at an atomic level. Here, the STM created a shot of gadolinium-silicon wire bundles.

4. Crystals & Colour

Crystals & Color
Credit: Courtesy of Oak Ridge National Laboratory | U.S. Dept. of Energy

This psychedelically-hued microscopic image shows chemical reactions resulting from the heating of zinc metal vapour, which has caused changes on the surface of zinc oxide crystals. Zinc oxide is an inorganic compound material that is used in a wide range of areas, including optics, electronics, nuclear science and medicine.

5. Chain Link Design

Chain Link Design
Credit: Oak Ridge National Laboratory | U.S. Dept. of Energy | simulation: Dr. Vincent Meunier | visualization: Jeremy
Meredith & Sean Ahern

This may look like an autostereogram (one of those "magic eye" optical illusion picture that, if you stare at them long enough, reveal a 3-D dolphin or dinosaur), but is actually a simulation of the dispersion of molecules within carbon nanostructures. This simulation mimics the dynamics of electrolytes in porous carbon materials.

6. Platinum Particles

Platinum Particles
Credit: Courtesy of Oak Ridge National Laboratory | U.S. Dept. of Energy

This image shows the oxygen reduction reaction of platinum particles on yttria-stabilized zirconia, which can be used as a thermal barrier coating to protect alloy surfaces.

7. All Aglow

All Aglow
Credit: Courtesy of Oak Ridge National Laboratory | U.S. Dept. of Energy

They may resemble chocolate Valentine's Day treats, but these are actually the tops of centrifuge tubes that are used to separate nanoparticles from a liquid. These separation devices are used to purify materials that will be used in advanced batteries, which will store more energy than traditional batteries and can be used to power electronic devices, heavy-duty tools and even vehicles.

8. Pretty in Plasma

Pretty in Plasma
Credit: Courtesy of Oak Ridge National Laboratory | U.S. Dept. of Energy

This illustration shows the plasma surface and toroidal, or doughnut-shaped, magnetic field coils of the International Thermonuclear Experimental Reactor (ITER). The ITER project is currently building the world's largest tokamak nuclear fusion reactor at the Cadarache research facility, located in the south of France.

9. Red Leaves

Red Leaves
Credit: Courtesy of Oak Ridge National Laboratory | U.S. Dept. of Energy

This piece, which somewhat resembles a hazy, distorted photo of autumn leaves, is actually a scanning microwave microscopy image of graphene. Researchers at the Oak Ridge National Laboratory created the Art of Science images "to show that science is more than lab coats and safety glasses," Dave Hamrin, a representative for the laboratory, told LiveScience.

10. Just a Drop

Just a Drop
Credit: Courtesy of Oak Ridge National Laboratory | U.S. Dept. of Energy

This photo is a close-up of several drops of water resting atop of a screen door. The door was treated using a new superhydrophobic powder coating, created by the Oak Ridge National Laboratory. The coating is extremely waterproof, causing the water to bead up and roll off of the screen door instead of being absorbed into the mesh.

11. Energy in Motion

Energy in Motion
Credit: Courtesy of Oak Ridge National Laboratory | U.S. Dept. of Energy

Here, a simulation shows how energy flows through a superconducting material's structure. A high-temperature superconducting material is a material that conducts electricity without resistance at a relatively high temperature. Such materials have the potential to be applied to energy-efficient technologies.

12. Pointillistic Picture

Pointillistic Picture
Credit: Courtesy of Oak Ridge National Laboratory | U.S. Dept. of Energy

A current map shows the colourful pattern of bismuth ferrite (BiFeO3), an inorganic chemical compound. Many of the scientific images created at the Oak Ridge National Laboratory — which is the U.S. Department of Energy's largest science and energy laboratory — have won national honours.

13. Titanium Tough

Titanium Tough
Credit: Courtesy of Oak Ridge National Laboratory | U.S. Dept. of Energy

Oak Ridge National Laboratory researchers created a fully functional lightweight robotic hand, shown here holding a complex impeller, also known as a compressor wheel. Both of the pieces were made from titanium powder.

14. Psychedelic Worlds

Psychedelic Worlds
Credit: Courtesy of Oak Ridge National Laboratory | U.S. Dept. of Energy

This image shows a series of simulations of the distribution of water vapour in the Earth's climate system. Each globe shows the simulated monthly average distribution of the world's total water vapour.

15. Energy Map

Energy Map
Credit: Courtesy of Oak Ridge National Laboratory | U.S. Dept. of Energy

The Oak Ridge National Laboratory's inelastic electron tunnelling spectroscopy (IETS) was used to map the movement of phonon energy.


[Source: Live Science. Edited. Top image added.]


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