Axel Friedenauer
Axel Friedenauer
TOPTICA Photonics AG
Verified email at
Cited by
Cited by
Simulating a quantum magnet with trapped ions
A Friedenauer, H Schmitz, JT Glueckert, D Porras, T Schätz
Nature Physics 4 (10), 757-761, 2008
Analogue of cosmological particle creation in an ion trap
R Schützhold, M Uhlmann, L Petersen, H Schmitz, A Friedenauer, ...
Physical review letters 99 (20), 201301, 2007
High power all solid state laser system near 280 nm
A Friedenauer, F Markert, H Schmitz, L Petersen, S Kahra, M Herrmann, ...
Applied Physics B 84, 371-373, 2006
Towards (scalable) quantum simulations in ion traps
T Schätz, A Friedenauer, H Schmitz, L Petersen, S Kahra
Journal of Modern Optics 54 (16-17), 2317-2325, 2007
The ESO transportable LGS Unit for measurements of the LGS photon return and other experiments
DB Calia, I Guidolin, A Friedenauer, M Hager, V Karpov, T Pfrommer, ...
Modern Technologies in Space-and Ground-based Telescopes and Instrumentation …, 2012
The “arch” of simulating quantum spin systems with trapped ions
H Schmitz, A Friedenauer, C Schneider, R Matjeschk, M Enderlein, ...
Applied Physics B 95, 195-203, 2009
RFA-based 589-nm guide star lasers for ESO VLT: a paradigm shift in performance, operational simplicity, reliability, and maintenance
A Friedenauer, V Karpov, D Wei, M Hager, B Ernstberger, WRL Clements, ...
Adaptive Optics Systems III 8447, 119-128, 2012
Noncyclic geometric quantum computation
A Friedenauer, E Sjöqvist
Physical Review A 67 (2), 024303, 2003
ESO adaptive optics facility progress and first laboratory test results
R Arsenault, PY Madec, J Paufique, P La Penna, S Stroebele, E Vernet, ...
Adaptive Optics Systems IV 9148, 914802, 2014
Series production of next-generation guide-star lasers at TOPTICA and MPBC
M Enderlein, A Friedenauer, R Schwerdt, P Rehme, D Wei, V Karpov, ...
Adaptive Optics Systems IV 9148, 49-59, 2014
PM fiber lasers at 589nm: a 20W transportable laser system for LGS return flux studies
DB Calia, A Friedenauer, V Protopopov, I Guidolin, LR Taylor, VI Karpov, ...
Adaptive Optics Systems II 7736, 698-709, 2010
Robust remote-pumping sodium laser for advanced LIDAR and guide star applications
B Ernstberger, M Enderlein, A Friedenauer, R Schwerdt, D Wei, V Karpov, ...
Optics in Atmospheric Propagation and Adaptive Systems XVIII 9641, 113-122, 2015
Simulation of the quantum ising model in an ion trap
A Friedenauer
lmu, 2010
Diode-seeded fiber-based sodium laser guide stars ready for deployment
WG Kaenders, A Friedenauer, V Karpov, V Protopopov, WRL Clements, ...
Adaptive Optics Systems II 7736, 768-774, 2010
20 W at 589 nm via frequency doubling of coherently beam combined 2-MHz 1178-nm CW signals amplified in Raman PM Fiber Amplifiers
L Taylor, A Friedenauer, V Protopopov, Y Feng, DB Calia, V Karpov, ...
The European Conference on Lasers and Electro-Optics, PDA_7, 2009
Laser system to generate a laser guide star
A Friedenauer, W Kaenders
US Patent 8,724,205, 2014
Generation of Ultrashort Laser Pulses at Wavelengths
A Friedenauer, R Herda
US Patent App. 16/223,844, 2020
920-nm fiber laser delivering 100-fs pulses for nonlinear microscopy
T Hellerer, C Polzer, A Friedenauer, I Greisberger, B Wolfring, C Skrobol
Multiphoton Microscopy in the Biomedical Sciences XIX 10882, 88-94, 2019
Generation of Ultrashort Laser Pulses
R Herda, A Friedenauer
US Patent App. 16/588,284, 2021
Simulating the Quantum Magnet
A Friedenauer, H Schmitz, JT Glückert, D Porras, T Schätz
arXiv preprint arXiv:0802.4072, 2008
The system can't perform the operation now. Try again later.
Articles 1–20