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“Exploring the Secrets of Many-Particle Quantum Systems Using Laser-Cooled Quantum Gases”
Department of Physics and Astronomy
Presents
Canadian Association of Physicists Lecture
Lindsay LeBlanc
University of Alberta
Thursday 29 January 2015
1:40 pm, Room C640, U Hall
Abstract
Though it's counterintuitive at first, lasers can be used to make things cold -- colder, in fact, than almost anything else in the universe. By eliminating the randomness associated with thermal kinetic energy, laser cooling techniques let us explore the fundamental quantum mechanical properties of matter. In my research, I am especially interested in studying how individual quantum particles act together, almost as if in community, to exhibit effects that benefit the whole system. In ultracold atomic systems, arbitrary control over the interactions and potential energies open up possibilities for implementing "quantum simulation," where a nearly ideal quantum system can be engineered to model systems that are either too difficult to calculate or too complicated to create. Recently, techniques that selectively transfer momentum from laser light to these ultracold atoms have been developed and used to mimic the effects of magnetic fields and "spin-orbit coupling" (where the spin and the motion of the atoms are correlated). I will discuss several experiments in which these techniques have been used to simulate magnetic and superfluid systems, and explain how we can push these techniques in new experiments to explore otherwise inaccessible systems. Here, we can learn about the relationships between different types of communal behaviour, and the mechanisms by which this "many-body order" is created and preserved.
EVERYONE IS WELCOME
Free and open to everyone
Contact:
Catherine Drenth | catherine.drenth@uleth.ca
