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By the joint experimental and theoretical investigation of corresponding signatures in a broad spectrum of systems including ultracold quantum condensates, exciton clusters in semiconductor quantum films, atomic clusters and nanoparticles, as well as warm dense matter, new frontiers in light-matter research are being explored. Along this line the center connects topical issues from various subjects, including physics of correlated Coulomb systems, semiconductor physics, quantum optics, and cluster physics in an interdisciplinary manner. State-of-the art light sources, such as stabilized optical cw-lasers, ultraintense femtosecond lasers, as well as the DESY VUV free-electron laser (FLASH) are employed for the experimental investigations.
Sub-Projects
- A1: Metal clusters in the light of the VUV- and X-FEL
Sub-Project Leader: Prof. Dr. Meiwes-Broer, Prof. Dr. Ronald Redmer, PD Dr. Josef Tiggesbäumker - A2 Thomson-scattering and correlation in warm dense matter
Sub-Project Leader: Prof. Dr. Ronald Redmer - A3: Correlated processes upon photo excitation of trapped clusters and particles
Sub-Project Leader: Prof. Dr. Lutz Schweikhard, Dr. Gerrit Marx, Prof. Dr. Meiwes-Broer - A4: Many body quantum electrodynamics and dielectric response
Sub-Project Leader: Prof. Dr. Gerd Röpke, Dr. Heidi Reinholz - A5: Controlled coupling of intense laser pulses to clusters and particles
Sub-Project Leader: PD Dr. Josef Tiggesbäumker, . Dr. Meiwes-Broer - A6: Quantum kinetics of dense Coulomb systems in laser fields
Sub-Project Leader: Prof. Dr. Manfred Schlanges, Dr. Thomas Bornath - A7: The phase of the light in optically excited semiconductor stuctures
Sub-Project Leader: Dr. Günther Manske, Prof. Dr. Heinrich Stolz
- B1: Exciton matter in mesoscopic potentials
Sub-Project Leader: Prof. Dr. Heinrich Stolz - B2: Microscopic description of quantum optics of many body systems
Sub-Project Leader: Prof. Dr. Werner Vogel, : Prof. Dr. Klaus Henneberger - B3: Excitonic clusters with strong coupling to light fields
Sub-Project Leader: Prof. Dr. Holger Fehske, Prof. Dr. Heinrich Stolz - B4: Possibilities and signatures of BEC in structured electron hole systems
Sub-Project Leader: Prof. Dr. Klaus Henneberger - B5: Collective excitonic phases in highly correlated electron hole systems
Sub-Project Leader: Prof. Dr. Holger Fehske, Prof. Dr. Gerd Röpke - B6: Light field induced correlations in condensates of metal atoms
Sub-Project Leader: Prof. Dr. Meiwes-Broer
Project details
Project duration: 01.07.2005 - 30.06.2009
Homepage: www.physik.uni-rostock.de/sfb
Workgroup: www.physik.uni-rostock.de/cluster
Funded by: DGF
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Stilleben im Labor
Laserlicht trifft Nanoteilchen
Zur Ablenkung intensiver Laserpulse werden oft Prismen statt Spiegel benutzt - © - Meiwes-Broer
Coherent model 899 ring dye laser, with rhodamine 6G dye, pumped with a 514 nm argon laser. The laser is tuned somewhere around 580 nm.
Photo taken by Han-Kwang at the AMOLF Institute in Amsterdam, Netherlands. - Licence CC
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