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New Beginnings

Caption: The Janus Supercomputer Credit: Joel Frahm and Zebula Sampedro, Univer
Caption: Kelvin-Helmholtz instability modeled by graduate student Greg Salvesen
Caption: Current-driven instability modeled by postdoc Sean O’Neill using the Ja
Caption: Infinite numbers of three-atom Efimov molecules form in a Bose-Einstein

JILA welcomes the Janus supercomputerCaption: The Janus Supercomputer Credit: Joel Frahm and Zebula Sampedro, Univer

In Roman mytholo Read more »

Diary of a Binge Eater

Artist’s conception of a supermassive black hole (emitting a high-energy jet) at

Fellow Mitch Begelman and his colleagues came up with the idea of quasistars to explain the origin the supermassive black holes found at the center of most galaxies. According to Begelman, quasistars formed when massive amounts of gas were funneled into the center of protogalaxies. This prodigious amount of gas collapsed directly into black holes without forming stars. The resulting black holes grew rapidly by sucking in matter from the great envelopes of gas still surrounding them. This process released enough energy to puff up quasistars, which then radiated light (like stars). Read more »

Molding a Star System over 50 Million Years

Caption: Artist’s conception of the formation of a young gas giant, exoplanet Lk

Giant planets form inside a disk of gas and dust orbiting a new star. At first, gravitational interactions between the disk and the planets will keep planetary orbits circular, according to Fellow Phil Armitage. But, once the disk begins to disperse, things get very interesting.Read more »

The Laser with Perfect Pitch

Caption: Artist’s concept of the Thompson group’s new superradiant laser.

The Thompson group, with theory help from the Holland group, recently demonstrated a superradiant laser that escapes the “echo chamber” problem that limits the best lasers. To understand this problem, imagine an opera singer practicing in an echo chamber. The singer hears his own voice echo from the walls of the room. He constantly adjusts his pitch to match that of his echo from some time before. But, if the walls of the room vibrate, then the singer’s echo will be shifted in pitch after bouncing off of the walls. Read more »

Secrets of a Celestial Accelerator

The Crab Nebula was created during the hundreds of years following a supernova e

On Earth, people use enormous linear accelerators and synchrotrons for such purposes as high-energy physics experiments, chemical composition analysis, and drug research. Linear accelerators ramp up the speeds of electrons and other charged subatomic particles close to the speed of light. Read more »

The Secret Life of Magnets

A tabletop x-ray laser is “watching” iron spins (red) that have just been pulled

The Kapteyn/Murnane group and scientists from NIST-Boulder and Germany have figured out how the interaction of an ultrafast laser with a metal alloy of iron and nickel destroys the metal’s magnetism. In a recent experiment, the researchers were able to observe how individual bits of quantum mechanical magnetization known as “spin” behaved after the metal was heated with the laser. The researchers included newly minted Ph. D. Read more »

The Quantum Drum Song

Two different vibrational patterns in a two-layer drum with silicon nitride on t

Fellows Konrad Lehnert and Cindy Regal are collaborating on an ambitious undertaking to explore the quantum behavior of tiny mechanical systems that are large enough to be visible to the naked eye (as opposed to systems exhibiting quantum behavior that are no bigger than a few tens of atoms). At the same time, they have been looking for ways to prolong vibrations in mechanical objects such as drums or strings. Prolonging vibrations makes it possible to laser cool objects to temperatures where it is possible to observe quantum mechanical motion. Read more »

Variation on an Infinity of Triangles

An electric field can cause three dipolar fermions to form only one particular t

The Greene group has just discovered some weird quantum states of ultracold fermions that are also dipoles. Dipoles are particles with small positively and negatively charged ends. Atoms (or molecules) that are fermions cannot occupy the same quantum state — unlike the neighborly bosons that readily occupy the same state and form Bose-Einstein condensates at ultracold temperatures. Read more »

The Indomitable Ruler of Light

Artist’s conception of the world’s first extreme ultraviolet (XUV) frequency com

The Ye group has created the world’s first “ruler of light” in the extreme ultraviolet (XUV). The new ruler is also known more formally as the XUV frequency comb. The comb consists of hundreds of equally spaced “colors” that function in precision measurement like the tics on an ordinary ruler. The amazing thing about this ruler is that XUV colors have such short wavelengths they aren’t even visible to the human eye. The wavelengths of the XUV colors range from about 120 nm to about 50 nm — far shorter than the shortest visible light at 400 nm. Read more »

No free lunch for entangled particles

An optical trap shaped like a donut can hold cold atoms in energy pockets around

Incredibly sensitive measurements can be made using particles that are correlated in a special way (called entanglement.)  Entanglement is one of the spooky properties of quantum mechanics – two particles interact and retain a connection, even if separated by huge distances.  If you do something to one of the particles, its linked partners will also respond. Read more »