Physics

A Graphene Superconductor That Plays More Than One Tune

A Graphene Superconductor That Plays More Than One Tune
Quantum Control With Light Paves Way For Ultra-Fast Computers

Quantum Control With Light Paves Way For Ultra-Fast Computers
Laser Cooling Chills Radium Ions For The First Time

Laser Cooling Chills Radium Ions For The First Time

Researchers have successfully used laser cooling on radium ions for the first time. Given that lasers are known for heating things up, laser cooling may seem a contradiction in terms.
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Meter-scale Optical Coherence Tomography: Depth Barrier Broken
2 Photon Quantum Interference In A Paint Drop

2 Photon Quantum Interference In A Paint Drop

Scientists at the University of Twente prove that two photons falling on a drop of paint, can just leave through two possible exits.
Two-Dimensional Boron Is A Low-temperature Superconductor

Two-Dimensional Boron Is A Low-temperature Superconductor

Two-dimensional boron is a natural low-temperature superconductor, Rice University scientists have established. In fact, it may be the only 2-D material with such potential.
Iron Selenide Thin FilmsFor High-temperature Superconductivity

Iron Selenide Thin FilmsFor High-temperature Superconductivity
Gravity Waves Rippling Toward Space Simulated

Gravity Waves Rippling Toward Space Simulated

The model's standard version yields only a blurry look at phenomena that take place on scales less than 1,250 miles across, and it's blind to anything smaller than 200 km.
Black Hole Information Loss Paradox May Be Nonexistent

Black Hole Information Loss Paradox May Be Nonexistent

The study outlines how interactions between particles emitted by a black hole can reveal information about what lies within, such as characteristics of the object that formed the black hole to begin with, and characteristics of the matter and energy drawn inside.