Harvard University Department of Physics

A Quantum Science Initiative at Harvard

Quantum science—the physics and engineering of the world at sub-microscopic scales—got a boost today as Harvard formally announced an initiative that will combine basic and applied research into the realm of the very small, as well as foster collaborations...

Sending Spin Waves into an Insulating 2D Magnet

Quantum Hall ferromagnets are among the purest magnets in the world — and one of the most difficult to study. These 2D magnets can only be made in temperatures less than a degree above absolute zero...

Origin of Mott Insulating Behavior and Superconductivity in Twisted Bilayer Graphene

A new theory describes how both insulating and superconducting behavior arises from sheets of graphene stacked and twisted at a particular "magic" angle.

UPCOMING EVENTS

Tomorrow

Professor Aharon Kapitulnik, Stanford University
Start: 04:15pm - End: 05:15pm
- Transport in Strongly Correlated Bad Metals
  
  The Boltzmann-Drude picture of electronic transport with well defined quasiparticle excitations breaks down when the electron mean-free-path becomes of order of the Fermi wavelength. Beyond this so-called Mott-Ioffe-Regel (MIR) limit, metallic behavior becomes incoherent, and materials that continue to exhibit resistance that increases with temperature without saturation above that limit are dubbed "bad metals." While there is no unique theory to date to describe such materials, the anomalous transport and strongly interacting nature of these systems suggest a possible relevance to quantum chaos. In this talk we show high-resolution thermal and charge transport data on several strongly correlated complex oxides above the MIR limit. Analyzing the data, we show that both, electrons and phonons carry heat in an overdamped diffusion process, which is characterized by a relaxation time bound and a unique velocity vB which is larger than the sound velocity and smaller than the Fermi velocity. We further discuss the connection between these results and a quantum chaotic system, emphasizing the importance of phonons, and the difference between charge and thermal transport.
- 04:15pm
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Wednesday, November 21st

No Squishy Physics - Happy Thanks Giving
Start: 06:00pm - End: 07:30pm
- 06:00pm
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Monday, November 26th

Professor Matthew Reece, Harvard University
Start: 04:15pm - End: 05:15pm
- “Fundamental Physics from Underground to the Sky”
  
  The Large Hadron Collider’s discovery of the Higgs boson has only sharpened some of the biggest puzzles in fundamental physics. Why is gravity so dramatically weak compared to the other fundamental forces of nature? What is the dark matter that is far more prevalent in our universe than normal matter? Finding the answers to such questions is likely to require us to sharpen our theoretical tools and to study experimental signals from cosmology and astrophysics that lie far afield from traditional particle experiment. I will highlight some recent research aiming to strengthen connections among particle physics, astrophysics, and cosmology.
- 04:15pm
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Tuesday, November 27th

CUA Seminar: Achim Rosch (University of Cologne)
Start: 04:00pm - End: 05:30pm
- Driven quantum systems: ratchets, pumps and equilibrationUltracold atoms provide unique opportunities to study many-body quantum systems out of equilibrium. We first investigate theoretically how an interacting quantum system reaches thermal equilibrium. While a few scattering events rapidly establish a local equilibrium, the ultimate bottleneck for equilibration is the building up of a characteristic pattern of thermal fluctuations. Using the one-dimensional bosonic Hubbard model as an example, we show that this leads to pronounced hydrodynamic long-time trials and power-law instead of exponential relaxation. Second, we study how one can use periodically driven systems to control interacting systems focusing on cases where the periodic driving can imprint currents on the system.
- 04:00pm
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Wednesday, November 28th

HQOC/ITAMP joint talk -Peter Lodahl (University of Copenhagen)
Start: 04:00pm - End: 05:30pm
- 04:00pm
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Stefano Aime - Harvard/Montpellier
Start: 06:00pm - End: 07:30pm
- 06:00pm
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