Mathematical sciences can be critical to certain areas of imaging. The problems that appear in imaging pose significant challenges to our community. The methods involved come from a wide range of areas of pure and applied mathematics ranging from potential theory to PDEs, to scattering theory, to complex analysis, to numerical methods. The aim of this workshop is to merge our expertise and to direct interest towards challenging issues such as robust algorithms for imaging defects in composite materials, the mathematics of invisibility or the mathematics of super-resolution.

•  Gang Bao Michigan State University •  Elena Beretta University of Rome I •  Eric Bonnetier Université Joseph Fourier, Grenoble •  Yves Capdeboscq Oxford University •  Rémi Carminati Ecole Supérieure de Physique et Chimie Industrielles de la ville de Paris •  George Dassios University of Cambridge •  Mathias Fink Université de Paris VII •  Elisa Francini University of Florence •  Martin Hanke Johannes Gutenberg University, Mainz •  David Holcman Ecole Normale Supérieure de Paris •  Victor Isakov Wichita State University •  Hyundae Lee Ecole Polytechnique •  Dominique Lesselier L2S Supélec •  Mikyoung Lim Colorado State University •  Graeme W. Milton University of Utah •  Naoshi Nishimura Kyoto University •  Roman Novikov CNRS & Université de Nantes •  John C. Schotland University of Pennsylvania •  Jin Keun Seo Yonsei University •   Vladimir Sharafutdinov Novosibirsk State University •  Gunther Uhlmann University of Washington •  Michael Vogelius Rutgers University •  Darko Volkov Worcester Polytechnic Institute •  Michael Weinstein Columbia University

• Habib Ammari CNRS & Ecole Polytechnique • Hyeonbae Kang Seoul National University

• Agence Nationale de la Recherche http://www.agence-nationale-recherche.fr