Publications

Wilfried Plaß. Zerstörschwellen und Degradation von CO2-Laseroptiken. In Helmut Hügel (Eds.), Laser in der Materialbearbeitung - Forschungsberichte des IFSW, 158, Teubner Verlag, Stuttgart, 1998. [PUMA: Laser Optical Elements from:peterberger]

Benjamin Kromoser, Oliver Gericke, Mathias Hammerl, and Werner Sobek. Second-generation implants for load introduction into thin-walled CFRP-reinforced UHPC beams: implant optimisation and investigations of production technologies. Materials, (12)23:3973, 2019. [PUMA: construction, thin-walled concrete sobek in reinforcement, sustainable for metal UHPC, concrete, engineering implants structures, elements load CFRP, introduction CFRP]

René Krupka. Photothermische Charakterisierung optischer Komponenten für Hochleistungslaser. In Helmut Hügel (Eds.), Laser in der Materialbearbeitung - Forschungsberichte des IFSW, 139, Teubner Verlag, Stuttgart, 1998. [PUMA: Laser Optical Elements from:peterberger]

Andreas Bamberger, Eberhard Bänsch, and Kunibert G. Siebert. Experimental and numerical investigation of edge tones. ZAMM Journal of Applied Mathematics and Mechanics, (84)9:632-646, 2004. [PUMA: from:mhartmann equations;adaptive edge methods;Navier-Stokes investigation;numerical elements tones;experimental finite vorlaeufig ians] URL

Andreas Bamberger, Eberhard Bänsch, and Kunibert G. Siebert. Experimental and numerical investigation of edge tones. ZAMM Journal of Applied Mathematics and Mechanics, (84)9:632-646, 2004. [PUMA: equations;adaptive edge methods;Navier-Stokes investigation;numerical elements tones;experimental finite vorlaeufig] URL

Andreas Bamberger, Eberhard Bänsch, and Kunibert G. Siebert. Experimental and numerical investigation of edge tones. ZAMM Journal of Applied Mathematics and Mechanics, (84)9:632-646, 2004. [PUMA: equations;adaptive edge methods;Navier-Stokes investigation;numerical elements tones;experimental finite vorlaeufig ians] URL

Kirk A. Peterson, Christine Krause, Hermann Stoll, J. Grant Hill, and Hans Joachim Werner. Application of explicitly correlated coupled-cluster methods to molecules containing post-3 d main group elements. Mol. Phys., (109)22:2607–2623, November 2011. [PUMA: chemie werner from:alexanderdenzel elements correlation,heavy theoretische stuttgart CCSD(T)-F12,core-valence correlation,explicit theochem] URL

J. Stumpe, O. Sakhno, Y. Gritsai, R. Rosenhauer, Th. Fischer, M. Rutloh, F. Schaal, S. Weidenfeld, M. Jetter, P. Michler, C. Pruss, and W. Osten. Active and Passive LC Based Polarization Elements. Molecular Crystals and Liquid Crystals, (594)1:140--149, Informa UK Limited, May 2014. [PUMA: elements polarization] URL

A Dadalau, A. Hafla, and A. Verl. A new adaptive penalization scheme for topology optimization: A new adaptive penalization scheme for topology optimization. --, 2009. [PUMA: self-weight, optimality optimization, penalty Topology ISW criteria, adaptive elements factor, meta derived TopoAD,]

Kunibert G. Siebert. A Convergence Proof for Adaptive Finite Elements without Lower Bound. IMA Journal of Numerical Analysis, (31)3:947-970, 2011. [PUMA: adaptivity convergence elements finite density vorlaeufig ians] URL

Kunibert G. Siebert. A Convergence Proof for Adaptive Finite Elements without Lower Bound. IMA Journal of Numerical Analysis, (31)3:947-970, 2011. [PUMA: adaptivity convergence elements finite density vorlaeufig] URL

Kunibert G. Siebert. A Convergence Proof for Adaptive Finite Elements without Lower Bound. IMA Journal of Numerical Analysis, (31)3:947-970, 2011. [PUMA: adaptivity from:mhartmann convergence elements finite density vorlaeufig ians] URL