Publications

M. Fleischmann, Jan Knippers, Julian Lienhard, Achim Menges, und Simon Schleicher. Material Behaviour: Embedding Physical Properties in Computational Design Processes. In London Wiley Academy (Hrsg.), Architectural Design, (Vol. 82)No. 2:44 – 51, 2012. [PUMA: 2012 architecture behaviour computational design embedding fleischmann from:petraheim itke knippers lienhard material menges physical process properties robotic schleicher]

M. Fleischmann, Jan Knippers, Julian Lienhard, Achim Menges, und Simon Schleicher. Material Behaviour: Embedding Physical Properties in Computational Design Processes. In London Wiley Academy (Hrsg.), Architectural Design, (Vol. 82)No. 2:44 – 51, 2012. [PUMA: 2012 architecture behaviour computational design embedding fleischmann itke knippers lienhard material menges physical process properties robotic schleicher]

A. Ciuriuc, P. Notingher, Mark Jovalekic, und Stefan Tenbohlen. Experimental Study on Vegetable and Mineral Transformer Oils Properties. 169-174, 2014. [PUMA: Mineral Oil Properties Transformer Vegetable]

Eric WS Hagan, Maria N Charalambides, Christina T Young, Thomas JS Learner, und Stephen Hackney. Tensile properties of latex paint films with TiO 2 pigment. In springer (Hrsg.), Mechanics of Time-Dependent Materials, (13)2:149--161, Springer, 2009. [PUMA: latex properties tensile]

Fabian Muhs, Yves Klett, und Peter Middendorf. Automated numerical process chain for the design of folded sandwich cores. 7th International Meeting on Origami in Science, Mathematics and Education (OSME), September 5-7, 2018, Oxford, UK, (4):1043--1058, 2018. [PUMA: adaptive based ceramics, control controllable crystal devices, direct electrochromic facade films, glass glazed glazing glazing, heat intelligent liquid materials, mechanism, optical optimisation, optimization, performance properties protection, self-adjusting smart solar sunlight sunlight, survey, system system, systems, thermochromic transfer, units, visual windows,]

E. Griesshaber, P. Haas, J. Thoms, A. Darjushkin, B.P. Gorshunov, M. Dressel, D. Schweitzer, R.K. Kremer, A. Golnik, C. Bernhard, M. Cardona, T. Klausa, und W. Strunz. Optical properties of the organic metal (BEDT-TTF)4Ni(dto)2. Synthetic Metals, (120)1-3:731-732, Elsevier BV, März 2001. [PUMA: BEDT-TTF metal organic properties] URL

A.B. Kuz'menko, F.P. Mena, H.J.A. Molegraaf, D. van der Marel, B. Gorshunov, M. Dressel, I.I. Mazin, J. Kortus, O.V. Dolgov, T. Muranaka, und J. Akimitsu. Manifestation of multiband optical properties of MgB2. Solid State Communications, (121)9-10:479-484, Elsevier BV, März 2002. [PUMA: MgB2 properties] URL

T. Rõõm, B. Gorshunov, M. Dressel, K. Ahn, R. K. Kremer, und A. Simon. Far-infrared optical properties of the carbide superconductor Y2C2I2. Phys. Rev. B, (66)1:012510, American Physical Society, Juli 2002. [PUMA: Y2C2I2 optical properties] URL

A. Matei, und M. Dressel. Experimental Determination of the Far-Infrared Optical Properties of Biological Matter in Aqueous Solution. Journal of Biological Physics, (29)2-3:101-108, 2003. [PUMA: aqueous far-infrared properties solution]

C. A. Kuntscher, S. Schuppler, P. Haas, B. Gorshunov, M. Dressel, M. Grioni, und F. Lichtenberg. Electronic and vibrational properties of the low-dimensional perovskites Sr1-yLayNbO3.5-x. Phys. Rev. B, (70)24:245123, American Physical Society, Dezember 2004. [PUMA: perovskites properties vibrational] URL

C.A. Kuntscher, S. Frank, I. Loa, K. Syassen, T. Yamauchi, und Y. Ueda. Pressure-dependent infrared properties of the quasi-one-dimensional metal β-Na0.33V2O5. Physica B: Condensed Matter, (378-380):896-897, Elsevier BV, Mai 2006. [PUMA: infrared metal properties] URL

Ana Akrap, Vladan Stevanović, Mirta Herak, Marko Miljak, Neven Barišić, Helmuth Berger, und László Forró. Transport and magnetic properties of BaVSe3. Phys. Rev. B, (78)23:235111, American Physical Society, Dezember 2008. [PUMA: BaVSe3 magnetic properties] URL

Patrick Gaiser, Jonas Binz, Bruno Gompf, Audrey Berrier, und Martin Dressel. Tuning the dielectric properties of metallic-nanoparticle/elastomer composites by strain. Nanoscale, (7)10:4566-4571, The Royal Society of Chemistry, 2015. [PUMA: dielectric metallic-nanoparticle/elastomer properties] URL

S Tomić, und M Dressel. Ferroelectricity in molecular solids: a review of electrodynamic properties. Reports on Progress in Physics, (78)9:096501, Juli 2015. [PUMA: electrodynamic ferroelectricity properties] URL

Tomislav Ivek, Matija Culo, Marko Kuvezdic, Eduard Tutis, Mario Basletic, Branimir Mihaljevic, Emil Tafra, Silvia Tomic, Anja Loehle, Martin Dressel, Dieter Schweitzer, und Bojana Korin-Hamzic. Semimetallic and charge-ordered α-(BEDT-TTF)2I3: On the role of disorder in dc transport and dielectric properties. Phys. Rev. B, (96)7:075141, American Physical Society, August 2017. [PUMA: alpha-(BEDT-TTF)2I3 dielectric properties] URL

Colin W. Glass, Steffen Reiser, Gábor Rutkai, Stephan Deublein, Andreas Köster, Gabriela Guevara-Carrion, Amer Wafai, Martin Horsch, Martin Bernreuther, Thorsten Windmann, Hans Hasse, und Jadran Vrabec. ms2: A molecular simulation tool for thermodynamic properties, new version release. An International Journal and Program Library for Computational Physics and Physical Chemistry, (185)12:3302--3306, Juli 2014. [PUMA: Carlo HLRS Molecular Monte SCOPE Transport Vapor--liquid derivatives dynamics equilibrium myown potential properties simulation]