Induction and Dynamics of New Phases of Matter

Seminar | March 10 | 2-3 p.m. | 277 Cory Hall

Speaker/Performer:  Prof. Aaron Lindenberg, Stanford University, MSE

Sponsor:  Berkeley Nanosciences and Nanoengineering Institute

A central goal in materials research is to develop means for controlling, inducing, and visualizing new phases of matter with unique functionalities. This requires efforts to manipulate and dynamically engineer the multi-phase landscapes that host metastable collective states and to visualize the heterogeneous dynamics that often accompanies the induction of new phases.

In this talk I will focus on two recent efforts which illustrate these approaches:

(1) I will show experimental results which demonstrate for the first time a new type of non-resonant optomechanical control in which the electric field of light stabilizes new structural phases of matter with interesting optoelectronic properties. This work defines novel types of phase-change materials with ultralow switching energies and ultrafast switching speeds and new low energy routes towards inducing non-equilibrium quantum phases of matter.

(2) I will describe new techniques for visualizing the induction of new phases and their dynamic heterogeneity using single-shot x-ray photon correlation spectroscopy. We show that this approach defines a new way of selectively visualizing dynamics occurring at nanoscale domain wall boundaries and discover an anomalously long-lived non-equilibrium response extending to millisecond time-scales. This work defines new possibilities for probing the non-equilibrium dynamics of disordered and heterogeneous media.
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Aaron Lindenberg did his PhD at UC Berkeley (Go Bears!), has won several DARPA and DOE faculty awards, and holds recent patents on quantum memory devices.

Event Contact:  victorr@eecs.berkeley.edu, 510-643-6681

Access Coordinator:  Avi Rosenzweig,  victorr@eecs.berkeley.edu,  510-643-6681