Research Highlights

Puff the Magic Planet

Caption: Artist’s concept of a puffed-up “Hot Jupiter” orbiting very close to it

Hot Jupiters — giant gas planets orbiting close to their parent stars — aren’t just scorched (at temperatures of >1000 K). They are also swollen up larger than can be explained by the intense heat from their host stars. Read more »

The Quantum Modeling Agency

Caption: Strontium (Sr) atoms loaded in egg carton-shaped energy wells of differ

“Nature is built quantum mechanically,” says Fellow Jun Ye, who wants to understand the connections between atoms and molecules in complex systems such as liquids and solids (aka condensed matter). He says that the whole Universe is made of countless interacting particles, and it would be impossible to figure out the myriad connections between them one particle at a time, either theoretically or experimentally. Read more »

Sharing the Adventure of Science

Portable laptops make it easy for the Physics Frontier Center’s outreach program

Graduate students or research associates at JILA have the option of signing up to help teach after-school science classes to elementary and middle school students in the St. Vrain School District. The volunteers expect to stimulate the children to learn to think critically, enjoy science activities, and become confident in their own abilities to master difficult concepts. Read more »

The Long Goodbye

Experimental measurements showing how the density of the electrons that bind the

The dance of electrons as a bromine molecule (Br₂) separates into two atoms is intricate and complex. The process of breaking up takes far longer than expected (~150 vs 85 fs) because the cloud of electrons that bind atoms together in a molecule behaves as if it were still surrounding a molecule until the last possible moment — when the atomic fragments are about twice the normal distance apart (~.55 nm). At this point, there’s simply not enough energy left in the system to hold the molecule together. Read more »

The Incredible Solar Bread Machine

Alan Gallagher’s prototype solar frying pan assembly. The assembly includes a sa

After he retired, Fellow Alan Gallagher decided to take his interest in solar energy in a whole new direction: He decided to design, build, and test a unique large-area frying pan heated by the Sun’s energy. The new solar frying pan was specifically tailored to the cooking of injera bread in East Africa.Read more »

Seeds of Creation: Monster Stars or Quasistars?

Simulation of the formation of a spiral galaxy with a black hole (formed inside

There are two competing ideas about the origin of the monster black holes at the center of galaxies. Both include exceptional stars that have never actually been observed: (1) massive population III (Pop III) stars (as big as a thousand Suns) made of pure hydrogen and helium that would have formed less than 100 million years after the Big Bang, and (2) gigantic quasistars whose shining envelopes were powered, not by nuclear fusion, but by energy emitted by the black holes inside them. Read more »

Ionize Me!

Oscillation (orange) of an intense infrared (IR) laser field as two electrons ar

When the IR field reaches its peak intensity, it rips the first electron out of

The free electron swings back by the nucleus of the helium ion, excites the ion,

The VUV pulse easily knocks the second electron out of the helium ion before the

Plucking the two electrons out of helium atoms should allow researchers to study how they interact during a double ionization process Read more »

Big G isn't the problem: Measuring it is!

Apparatus used to measure big G at JILA. Credit: James Faller

Of all the fundamental forces, gravity is the most difficult to precisely measure. This difficulty is reflected in how hard it is to accurately measure “Big G,” a fundamental constant that is part of the measurement of the gravitational force. In fact, big G is the least precisely measured fundamental constant in physics. Who would have imagined that the very first fundamental force to be discovered would still be somewhat mysterious more than 300 years later? Read more »

Rainbows of Soft X-Rays

Cover of Physical Review Letters showing results of a double-slit experiment dem

Artist’s impression of the coherent-light upconverter used in the Kapteyn/Murnan

The vision of a tabletop x-ray laser has taken a giant step into reality, thanks to Tenio Popmintchev, Ming-Chang Chen and their colleagues in the Kapteyn/Murnane group. By focusing a femtosecond laser into a gas, Popmintchev and Chen generated many colors of x-rays at once, in a band that stretched from the extreme ultraviolet into the soft x-ray region of the electromagnetic spectrum, spanning wavelengths of ranging from about 6 to 2.5 nm. This broad x-ray band has so many different colors that all the waves can be added together to form the shortest strobe light in existence. Read more »

Sayonara Demolition Man

Schrödinger’s cat in a superposition between dead and alive in a box with a subs

The Thompson group sends a laser through an optical cavity filled with rubidium

The secret for reducing quantum noise in a precision measurement of spins in a collection of a million atoms is simple: Pre-measure the quantum noise, then subtract it out at the end of the precision measurement. The catch is not to do anything that detects and measures the spins of individual atoms in the ensemble. If states of individual atoms are measured, then those atoms stop being in a superposition and the subsequent precision measurement will be ruined. Read more »