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LASSP -  Laboratory of Atomic and Solid State Physics

Cornell Laboratory for Atomic and Solid State Physics


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Alex Alemi and Matt Bierbaum model the best places to hide in a Zombie Outbreak

When a Zombie outbreak occurs don't call Brad Pitt, Woody Harrelson or Simon Pegg. You'll want to call PhD candidates Alex Alemi and Matt Bierbaum along with Professors Jim Sethna and Chris Myers. And if you want to find their secret to survival ahead of time you can attend their Statistical Mechanics of Zombies talk at the 2015 APS March Meeting. On the morning of Thursday March 5 they'll be presenting their use of Zombies for disease modeling as part of the session on Physics of Evolutionary and Population Dynamics.

You can try out the simulation yourself at:

A paper on the subject is in the arXiv.

Kyle Shen group can dial in control of strontium iridate

Shen's group offers insight on how different “knobs” can change material properties in ways that were previously unexplored or misunderstood. Studying strontium iridate the researchers were able to flip it from behaving like metal to a semiconductor by applying spin-orbit interactions or changing molecular bond angles.

Read more in the Chronicle and the full article in Physical Review Letters

By Brendan Faeth - An artist’s rendering of strontium iridate

Davis group finds magnetic disorder in topological insulators

To better understand topological insulators (TIs) and why they weren't living up to their potential Seamus Davis's group at Cornell and Brookhaven National Lab studied them with their scanning tunneling microscope. What they found is the magnetic disorder at the surface was preventing the smooth flow of electrons.

Read more in the Chronicle and their Feb 3 article in Proceedings of the National Academy of Sciences.

Scanning tunnelling microscope image of a 47-nanometer square area of the surface of a topological insulator showing variations in the Dirac-mass gap

Katja Nowack joins LASSP Faculty and starts a SQUID lab

We are thrilled to welcome Assistant Professor of Physics Katja Nowack to Cornell, joining the faculty in LASSP and the Physics Department. As Prof Nowack gets settled in one of her biggest goals will be to construct her lab in PSB featuring a Superconducting QUantum Interference Device or SQUID. Using the SQUID, Nowack plans to explore emergent order and phenomena in a diverse set of quantum materials. The new lab will have opportunities for postdocs, graduate students and undergraduate students.

Prof Nowack’s husband, Iwijn De Vlaminck, is a very talented biophysicist/bioengineer who is also joining Cornell to work in BME with labs in Clark.

If you see them around please give them a warm welcome!

Katja Nowack

Eun-Ah Kim and Seamus Davis groups find 'fingerprint' for high-temperature superconductor

Eun-Ah Kim along with Seamus Davis have isolated a "fingerprint" that identifies specific fluctuations in electrons that force them into pairs, causing their host material, in this case, a high-temperature superconductor called lithium iron arsenic, to make way for free-flowing, resistance-free electron pairs.

Check out the full article in Nature Physics.

Highlights of the paper are in the Chronicle.


Video: Comparison between theory (left) and experiment (right) of energy evolution of quasi-particle interference imaging demonstrating fingerprints of spin-fluctuation effects on quasi-particles of a High temperature superconductor LiFeAs.

Image: Quasiparticle Interference (QPI) imaging technique reveals that electron-boson interaction in LiFeAs superconductivity has momentum-space anisotropic self-energy 'fingerprint' of antiferromagnetic spin fluctuations.

Quasiparticle Interference (QPI) imaging technique reveals that electron-boson interaction in LiFeAs superconductivity has momentum-space anisotropic self-energy 'fingerprint' of antiferromagnetic spin fluctuations

John Heron, Dan Ralph, and Darrell Schlom make a breakthrough in instant-on computing

John Heron, a postdoc in Dan Ralph and Darrell Schlom's research groups, has made a breakthrough in room-temperature magnetoelectric memory device.

Read more in:

The Chronicle

Nature: News and Views

Full article in Nature.

conceptual illustration of magnetization reversal