8:00 AM–11:00 AM, Thursday, March 8, 2007
Colorado Convention Center - 104
Sponsoring Unit:
DCP
Chair: Dwayne Miller, University of Toronto
Abstract ID: BAPS.2007.MAR.U19.1
8:00 AM–8:36 AM
Philip Bucksbaum
(PULSE Center, Stanford Linear Accelerator Center)
Hard x-rays (E greater than 1 keV) can probe the structure of matter on the length scale of a chemical bond. Ultrafast lasers (t less than 1 ps) can capture the quantum dynamics of single vibration in a crystal lattice or in a molecule, and they have also been used to view the transient molecular-scale transformations of chemical reactions. Until recently, only laser-induced plasma radiation was capable of capturing these ultrafast dynamics and also viewing them on the scale of a single chemical bond. The recent Sub-Picosecond Pulse Source experiment at SLAC was the first instrument based on synchrotron radiation from an undulator that could do both. During its two-year run, its 8 keV, 80 fs x-ray pulses were the brightest ultrafast x-rays in the world. This is just the beginning. The planned X-ray free electron laser at SLAC (LCLS) will generate focused x-ray fields as strong as atomic binding fields, comparable to today' highest intensity lasers. These new tools are creating some special opportunities for new science, and also some challenges. I will discuss these, and present recent progress in ultrafast x-ray sources and science.
To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2007.MAR.U19.1