Erweiterte Suche der Leibniz Universität Hannover

Molecules 2015, 20, 1410-1423; doi:10.3390/molecules20011410 molecules ISSN 1420-3049 www.mdpi.com/journal/molecules Review Parvin Most 1,2 and Jutta Papenbrock 1,* 1 Institute of Botany, Leibniz University Hannover, Herrenhäuserstr.

Assembly of Ultracold Molecules Dipolar ultracold molecules are a powerful tool to direct observe exotic phenomena and to emulate different quantum systems with large control on all parameters. In our lab we aim to cool down 23 Na 39 K molecules down to the hyperfine ro vibrational electronic ground state and employ them to unveil these phenomena. Everything starts from hot samples of sodium and potassium that are co...

Assembly of Ultracold Molecules Dipolar ultracold molecules are a powerful tool to direct observe exotic phenomena and to emulate different quantum systems with large control on all parameters. In our lab we aim to cool down 23 Na 39 K molecules down to the hyperfine ro vibrational electronic ground state and employ them to unveil these phenomena. Everything starts from hot samples of sodium and potassium that are co...

Measuring individual molecules with diamond quantum sensors 01/12/2023 Junior professor Nabeel Aslam at the LENA research centre. Interview with Professor Nabeel Aslam Nabeel Aslam became a junior professor at the Institute of Condensed Matter Physics at TU Braunschweig at the beginning of October 2022.

Direct Laser Cooling of Molecules Overview Molecules at ultracold temperatures move at velocities close to a standstill and can be precisely controlled in their quantum state and their orientation in the lab frame.

Assembly of Ultracold Molecules Overview Quantum gases of ultracold polar molecules are an especially powerful tool for studying strongly interacting dipolar quantum many body physics.

Assembly of Ultracold Molecules Overview Quantum gases of ultracold polar molecules are an especially powerful tool for studying strongly interacting dipolar quantum many body physics.

Direct Laser Cooling of Molecules Overview Molecules at ultracold temperatures move at velocities close to a standstill and can be precisely controlled in their quantum state and their orientation in the lab frame.

Direct Laser Cooling of CaF Molecules Overview Molecules at ultracold temperatures move at velocities close to a standstill and can be precisely controlled in their quantum state and their orientation in the lab frame.

Direct Laser Cooling of CaF Molecules Overview Molecules at ultracold temperatures move at velocities close to a standstill and can be precisely controlled in their quantum state and their orientation in the lab frame.

Chemisorbed single molecules as electronic switches Leitung: H. Pfnür, F. Renz Team: A. Chatterjee Jahr: 2013 The aim of this project is the direct investigation of the electrical conduction properties of single molecules with extended electronic π systems, which are chemically bound to metallic contacts.

Assembly of Ultracold Molecules Overview Quantum gases of ultracold polar molecules are an especially powerful tool for studying strongly interacting dipolar quantum many body physics.

Chemisorbed single molecules as electronic switches Led by: H. Pfnür, F. Renz Team: A. Chatterjee Year: 2013 Back

Publication accepted: Radio frequency association of heteronuclear Feshbach molecules 04.12.2008 It can be downloaded from Physical Review A . Verfasst von Carsten Klempt Zur Listenansicht

Ultrafast optical spectroscopy of interactions and energy transfer in single molecules Leitung: M. Oestreich, F. Renz Team: J. Wiegand Jahr: 2013 Abstract: The aim of this project is the investigation of concerted and sequential molecular switching in nanoscopic coordination compounds under optical energy injection by ultrafast optical spectroscopy. The compounds comprise multinuclear single molecules which show a distinct sw...