Engineering Dirac points with ultracold fermions in a tunable optical lattice Daniel Greif1,∗ , Leticia Tarruell1,2 , Thomas Uehlinger1 , Gregor Jotzu1 and Tilman Esslinger1 1. Institute for Quantum Electronics, ETH Zu

First Page		Document Content
Date: 2012-07-31 16:17:23 Physics Quantum mechanics Crystallography Fermions Quantum field theory Brillouin zone Electronic band structure Tilman Esslinger Optical lattice Dirac fermion		Engineering Dirac points with ultracold fermions in a tunable optical lattice Daniel Greif1,∗ , Leticia Tarruell1,2 , Thomas Uehlinger1 , Gregor Jotzu1 and Tilman Esslinger1 1. Institute for Quantum Electronics, ETH Zu Add to Reading List Source URL: www-lpl.univ-paris13.fr Download Document from Source Website File Size: 52,36 KB Share Document on Facebook

	Engineering Dirac points with ultracold fermions in a tunable optical lattice Daniel Greif1,∗ , Leticia Tarruell1,2 , Thomas Uehlinger1 , Gregor Jotzu1 and Tilman Esslinger1 1. Institute for Quantum Electronics, ETH Zu DocID: 1qWSP - View Document
	Nr. 47 November 2015 SPG MITTEILUNGEN COMMUNICATIONS DE LA SSP DocID: 1pFvk - View Document
	Synthetic Quantum Many-Body Systems (invited) Tilman Esslinger — Department of Physics, ETH Zurich, Switzerland The quantum gas approach to many-body physics is fundamentally different from the path taken by other cond DocID: 11pky - View Document
	articles Quantum phase transition from a super¯uid to a Mott insulator in a gas of ultracold atoms Markus Greiner, Olaf Mandel, Tilman Esslinger², Theodor W. HaÈnsch* & Immanuel Bloch* DocID: Qeel - View Document