Physics in the News

Tuesday, September 16, 2014

Cornell theorists continue the search for supersymmetry

The Tevatron, the particle accelerator used to find the oscillating Bs meson, has huge detectors surrounded by a cylindrical 'tracking chamber', shown here. (Credit: Fermilab) — The Tevatron, the particle accelerator used to find the oscillating Bs meson, has huge detectors surrounded by a cylindrical ‘tracking chamber’, shown here. (Credit: Fermilab)

Planets with oddball orbits like Mercury could host life

On Mercury a solar day is about 176 Earth days long. During its first Mercury solar day in orbit the MESSENGER spacecraft imaged nearly the entire surface of Mercury to generate a global monochrome map at 250 meters per pixel resolution and a 1 kilometer per pixel resolution color map. (Credit: NASA/JHU APL/CIW)

Neutrino trident production may offer powerful probe of new physics

Parameter space for the Z’ gauge boson. The light gray area is excluded at 95% C.L. by the CCFR measurement of the neutrino trident cross section. The dark gray region with the dotted contour is excluded by measurements of the SM Z boson decay to four leptons at the LHC. The purple region is the area favored by the muon g-2 discrepancy that has not yet been ruled out, but future high-energy neutrino experiments are expected to be highly sensitive to this low-mass region. (Credit: Altmannshofer, et al. ©2014 American Physical Society)

Viewpoint: Observing the great spin and orbital swap

The researchers observed for the first time coherent oscillations between two spin states: |e↑,g↓〉⇔|e↓,g↑〉. From the oscillation frequency, they determine the spin-exchange interaction strength. (Credit: APS/Ana Maria Rey)

via physics.aps

NASA inspector general blasts asteroid detection program

NASA has found about 95 per cent of the largest and potentially most destructive asteroids, those measuring about one kilometre or larger in diameter, but only 10 per cent of those 140 metres or larger in diameter. (NASA/JPL-Caltech/Canadian Press)

Solar System Simulation Reveals Planetary Mystery

A montage of the planets and some of the moons in our solar system, not to scale. (Credit: NASA/JPL)

Scientists explore landscape of absolute zero to probe quantum phase transitions

Rendering of the near–perfect crystal structure of the yttrium–iron–aluminum compound used in the study. The two–dimensional layers of the material allowed the scientists to isolate the magnetic ordering that emerged near absolute zero. (Credit:Brookhaven National Laboratory)

Ultrahard fullerite is almost twice as hard as diamond but new synthesis works at room temperature and lower pressure

Diamond anvils malformed during synthesis of ultrahard fullerite. Note the dent in the center. (Credit: Moscow Institute of Physics and Technology)

via nextbigfuture

Calling all amateur astronomers

via skyandtelescope

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