Joseph Eberly, ETH-Fast Fellow, University of Rochester, Department of Physics and Astronomy, Rochester, NY
Thursday, 01.11.2012 - Friday, 02.11.2012, ETHZ Hönggerberg
This is an ETH-Fast initiative
Prof. Dr. Joseph Eberly
University of Rochester, Department of Physics and Astronomy, Rochester, NY
01.11.2012: 17:00 - 19:00; ETH Zurich Hönggerberg, HIT H 42
02.11.2012: 14:00 - 16:00; ETH Zurich Hönggerberg, HPK D24.2
Lecture 1: What is the SENE approach to high-field atomic effects?
Between TDSE and TDNE, and without reference to tunneling, there is a new approach to multiphoton ionization theory labelled SENE. An overview will be presented of the SENE method in connection with high-field atomic and molecular phenomena where its applica-tion appears promising.
Lecture 2: Understanding light polarization a bit better
The nature of light polarization is not so well understood as the theories of George Stokes and Emil Wolf would lead us to believe. A wider viewpoint is required in order to accom-modate the needs of increasingly complex light fields. It turns out that even for completely classical light, entanglement plays an important role.
Paper handouts and a visitor certificate are available for registered people.
Additional handouts will be downloadable after the seminar.
University of Rochester, Department of Physics and Astronomy, Rochester, NY
01.11.2012: 17:00 - 19:00; ETH Zurich Hönggerberg, HIT H 42
02.11.2012: 14:00 - 16:00; ETH Zurich Hönggerberg, HPK D24.2
Lecture 1: What is the SENE approach to high-field atomic effects?
Between TDSE and TDNE, and without reference to tunneling, there is a new approach to multiphoton ionization theory labelled SENE. An overview will be presented of the SENE method in connection with high-field atomic and molecular phenomena where its applica-tion appears promising.
Lecture 2: Understanding light polarization a bit better
The nature of light polarization is not so well understood as the theories of George Stokes and Emil Wolf would lead us to believe. A wider viewpoint is required in order to accom-modate the needs of increasingly complex light fields. It turns out that even for completely classical light, entanglement plays an important role.
Paper handouts and a visitor certificate are available for registered people.
Additional handouts will be downloadable after the seminar.
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