Extended superconducting concentration range observed in Pr 2− x Ce x CuO 4− δ M Brinkmann, T Rex, H Bach, K Westerholt Physical review letters 74 (24), 4927, 1995 | 142 | 1995 |
Residual resistivity and oxygen stoichiometry in Pr2− xCexCuO4+ δ single crystals M Brinkmann, T Rex, M Stief, H Bach, K Westerholt Physica C: Superconductivity 269 (1-2), 76-82, 1996 | 63 | 1996 |
Optical device, and process for producing it M Brinkmann, E Pawlowski, F Thoma, T Woywod, W Beier US Patent App. 10/847,200, 2005 | 50 | 2005 |
General features of quantum creep in high-T c superconductors AFT Hoekstra, R Griessen, AM Testa, J El Fattahi, M Brinkmann, ... Physical review letters 80 (19), 4293, 1998 | 35 | 1998 |
Photostructurable body and process for treating a glass and/or a glass-ceramic B Schreder, J Zimmer, M Brinkmann, M Kluge US Patent 7,262,144, 2007 | 29 | 2007 |
Superconductivity of Pr 2− x Ce x Cu O 4+ δ single crystals with substitution of Ni and Co on the Cu position M Brinkmann, H Bach, K Westerholt Physical Review B 54 (9), 6680, 1996 | 27 | 1996 |
Crystal growth of high-Tc superconductors Pr2− xCexCuO4+ δ with substitutions of Ni and Co for Cu M Brinkmann, T Rex, H Bach, K Westerholt Journal of crystal growth 163 (4), 369-376, 1996 | 25 | 1996 |
Temperature and magnetic-field dependence of quantum creep in various high-T c superconductors AFT Hoekstra, AM Testa, G Doornbos, JC Martinez, B Dam, R Griessen, ... Physical Review B 59 (10), 7222, 1999 | 24 | 1999 |
nm‐ and μm‐Scale Surface Roughness on Glass with Specific Optical Scattering Characteristics on Demand H Fouckhardt, I Steingoetter, M Brinkmann, M Hagemann, H Zarschizky, ... Advances in OptoElectronics 2007 (1), 027316, 2007 | 20 | 2007 |
Method of forming glass-ceramic parts and/or glass parts U Fotheringham, H Esemann, B Hoppe, H Bader, G Hahn, ... US Patent 7,000,430, 2006 | 19 | 2006 |
Electrical resistivity study of metallic Pr2− xCexCuO4+ δ-single crystals over a broad concentration and temperature range M Brinkmann, H Bach, K Westerholt Physica C: Superconductivity 292 (1-2), 104-116, 1997 | 19 | 1997 |
Lighting apparatus, lens and method of making the lens M Brinkmann, E Pawlowski, W Beier, R Harmgardt US Patent 7,387,413, 2008 | 16 | 2008 |
Method and device for the homogenous heating of glass and/or glass-ceramic articles using infrared radiation U Fotheringham, H Esemann, M Garsche-Andres, B Hoppe, M Brinkmann, ... US Patent 7,017,370, 2006 | 14 | 2006 |
Resistance anisotropy in strongly anisotropic high-Tc superconductors M Brinkmann, H Sommitz, H Bach, K Westerholt Physica C: Superconductivity 217 (3-4), 418-424, 1993 | 13 | 1993 |
Simultaneous color and luminance control of organic light-emitting diodes for mood-lighting applications A Köhnen, K Meerholz, M Hagemann, M Brinkmann, S Sinzinger Applied Physics Letters 92 (3), 2008 | 12 | 2008 |
REX T., BACH H., WESTERHOLT K M Brinkmann Phys. Rev. Lett 74, 1995 | 12 | 1995 |
Optical materials and their properties M Brinkmann, J Hayden, M Letz, S Reichel, C Click, W Mannstadt, ... Springer handbook of lasers and optics, 249, 2007 | 11 | 2007 |
Planar erbium-doped waveguide amplifiers in glasses: rigorous theory and experimental investigations S Reichel, M Brinkmann Optical Materials 25 (2), 123-129, 2004 | 11 | 2004 |
Diffraktive Optische Elemente erobern den Markt: Vorteile gegenüber klassischen optischen Komponenten M Brinkmann, FJ Braun, M Hagemann, E Jäger Optik & Photonik 4 (1), 50-54, 2009 | 10 | 2009 |
Short wavelength optical anisotropy in CaF2 caused by exciton dispersion M Letz, W Mannstadt, M Brinkmann, L Parthier, G Wehrhan, E Mo¨ rsen Journal of Micro/Nanolithography, MEMS and MOEMS 2 (2), 112-118, 2003 | 9 | 2003 |