Publications

N. C. Stellwagen, C. Gelfi, and P. G. Righetti. The free solution mobility of DNA. Biopolymers, (42)6:687--703, November 1997. [PUMA: ACID ACRYLAMIDO CAPILLARIES CAPILLARY COATED CONDENSATION; COUNTERION DIFFUSION-COEFFICIENTS; Electrophoresis; FRAGMENTS; GEL HIGHER HYDROLYTIC HYDROPHILICITY; IMPROVED LIGHT-SCATTERING; MONOMERS; PORE-SIZE; RESTRICTION STABILITY; ZONE]

E. Stellwagen, and N. C. Stellwagen. Determining the electrophoretic mobility and translational diffusion coefficients of DNA molecules in free solution. Electrophoresis, (23)16:2794--2803, August 2002. [PUMA: APPROACH; ATOMIC-RESOLUTION B-DNA; BINDING; CAPILLARY CATIONS; Electrophoresis; LENGTH; MINOR-GROOVE; MONOVALENT NEUTRALIZATION; PERSISTENCE PHOSPHATE SEMIEMPIRICAL SEQUENCE-SPECIFIC SINGLE-STRANDED-DNA; ZONE]

G. W. Slater, T. B. L. Kist, H. J. Ren, and G. Drouin. Recent developments in DNA electrophoretic separations. Electrophoresis, (19)10:1525--1541, July 1998. [PUMA: AGAROSE ARRAYS; CAPILLARY CONFORMATIONAL DNA; DOUBLE-STRANDED DYNAMICS ELECTRIC-FIELDS; Electrophoresis; GEL-Electrophoresis; GELS; MICROLITHOGRAPHIC POLYACRYLAMIDE POLYMER-SOLUTIONS; PULSED-FIELD TRAPPING ULTRADILUTE experiment, review, theory,]

J. M. Savard, S. T. Grosser, and J. W. Schneider. Length-dependent DNA separations using multiple end-attached peptide nucleic acid amphiphiles in micellar electrokinetic chromatography. Electrophoresis, (29)13:2779--2789, WILEY-V C H VERLAG GMBH, PO BOX 10 11 61, D-69451 WEINHEIM, GERMANY, 2008. [PUMA: DNA capillary chromatography electrokinetic electrophoresis; end-labeled free-solution micellar sequencing;] URL

N. Pernodet, V. Samuilov, K. Shin, J. Sokolov, M. H. Rafailovich, D. Gersappe, and B. Chu. DNA electrophoresis on a flat surface. Physical Review Letters, (85)26:5651--5654, December 2000. [PUMA: AGAROSE ARRAYS; CAPILLARY Electrophoresis; FIELD; FRAGMENTS GELS; MICROLITHOGRAPHIC MOBILITY; MONOLAYERS; NUCLEIC-ACIDS; SELF-ASSEMBLED SEPARATIONS;]

Cristina Legido-Quigley, Nicola D. Marlin, Virginie Melin, Andreas Manz, and Norman W. Smith. Advances in capillary electrochromatography and micro-high performance liquid chromatography monolithic columns for separation science. Electrophoresis, (24)6:917--944, WILEY-VCH Verlag, 2003. [PUMA: Capillary Continuous Micro-high Monolith, Review bed, chromatography, electrochromatography, liquid performance]

R. Hilfer, and P. E. Øren. Dimensional Analysis of Pore Scale and Field Scale Immiscible Displacement. Transport in Porous Media, (22):53, 1996. [PUMA: analysis, balance, capillary curves, desaturation dimensional flow, force forces, gravity groups, macroscopic mobilization numbers of oil oil, residual saturation, scaling similarity theory, two-phase viscous]

Brett A. Buchholz, Wei Shi, and Annelise E. Barron. Microchannel DNA sequencing matrices with switchable viscosities. Electrophoresis, (23)10:1398--1409, WILEY-VCH Verlag GmbH, 2002. [PUMA: Capillary DNA Review, Shear-responsive, Thermo-responsive electrophoresis, matrices, separation sequencing,]

Detlev Belder, Heribert Husmann, and Jörg Warnke. Directed control of electroosmotic flow in nonaqueous electrolytes using poly(ethylene glycol) coated capillaries. Electrophoresis, (22)4:666--672, Wiley Subscription Services, Inc., A Wiley Company, 2001. [PUMA: Capillary Coating, Electroosmosis, Nonaqueous Poly(ethylene electrolytes electrophoresis, glycol),]

Krüger P.. Grundlagenverständnis zum Einfluss der Fokuslage auf die Geometrie und das Stabilitätsverhalten der Dampfkapillare. IFSW12-02January 2012. [PUMA: Capillary Laser ProcessDevelopment Studienarbeit Weberpals,Jan-Philipp]

Krüger P.. Grundlagenverständnis zum Einfluss der Fokuslage auf die Geometrie und das Stabilitätsverhalten der Dampfkapillare. IFSW12-02January 2012. [PUMA: Studienarbeit Capillary Laser from:florianfetzer Weberpals,Jan-Philipp ProcessDevelopment]

M. Haug. Charakterisierung der Kapillarfront durch Nutzung der polarisierten Wärmestrahlung. IFSW12-06March 2012. [PUMA: Bachelorarbeit Capillary Laser ProcessDevelopment Weberpals,Jan-Philipp]

S. Hamernik. 3D-Oberflächenrekonstruktion der Kapillargeometrie beim Laserschweißen. IFSW11-30November 2011. [PUMA: Bachelorarbeit Capillary Laser ProcessDevelopment Weberpals,Jan-Philipp Welding]

S. Hamernik. 3D-Oberflächenrekonstruktion der Kapillargeometrie beim Laserschweißen. IFSW11-30November 2011. [PUMA: Welding Bachelorarbeit Capillary Laser from:florianfetzer Weberpals,Jan-Philipp ProcessDevelopment]

Gerald Heckeler. Berechnung dreidimensionaler Schmelzbadströmungen für vorzubeugende Kapillarformen und Ermittlung von Formen, die einen stabilen Laserschweißprozeß erwarten lassen. IFSW96-37November 1996. [PUMA: Capillary Diplomarbeit Kern,Markus Laser NumericalMathematics ProcessDevelopment Welding]

Gerald Heckeler. Berechnung dreidimensionaler Schmelzbadströmungen für vorzubeugende Kapillarformen und Ermittlung von Formen, die einen stabilen Laserschweißprozeß erwarten lassen. IFSW96-37November 1996. [PUMA: NumericalMathematics Welding Capillary Laser from:florianfetzer Kern,Markus ProcessDevelopment Diplomarbeit]

M. Haug. Charakterisierung der Kapillarfront durch Nutzung der polarisierten Wärmestrahlung. IFSW12-06March 2012. [PUMA: Bachelorarbeit Capillary Laser from:florianfetzer Weberpals,Jan-Philipp ProcessDevelopment]

Michael Jarwitz, Jannik Lind, Rudolf Weber, and Thomas Graf. X-Ray investigations of the capillary shape and melt flows during laser welding of steel using superimposed intensity distributions. 2018. [PUMA: BeamShaping Capillary Diagnostics Laser LaserMatterInteraction MacroMaterialProcessing Steel Welding myown]

Michael Jarwitz, Jannik Lind, Rudolf Weber, and Thomas Graf. X-Ray investigations of the capillary shape and melt flows during laser welding of steel using superimposed intensity distributions. 2018. [PUMA: myown Diagnostics Welding BeamShaping Steel LaserMatterInteraction Capillary Laser MacroMaterialProcessing from:michaeljarwitz]

Michael Jarwitz, Jannik Lind, Rudolf Weber, Thomas Graf, Nicolai Speker, and Patrick Haug. INVESTIGATION OF THE INFLUENCE OF SUPERIMPOSED INTENSITY DISTRIBUTIONS ON THE SPATTER BEHAVIOR IN LASER WELDING OF STEEL USING ONLINE X-RAY DIAGNOSTICS. 2018. [PUMA: BeamShaping Capillary Diagnostics Laser LaserMatterInteraction Steel Welding myown]

Michael Jarwitz, Jannik Lind, Rudolf Weber, Thomas Graf, Nicolai Speker, and Patrick Haug. INVESTIGATION OF THE INFLUENCE OF SUPERIMPOSED INTENSITY DISTRIBUTIONS ON THE SPATTER BEHAVIOR IN LASER WELDING OF STEEL USING ONLINE X-RAY DIAGNOSTICS. 2018. [PUMA: LaserMatterInteraction myown Diagnostics Welding Capillary Laser BeamShaping Steel from:michaeljarwitz]

Michael Jarwitz, Jannik Lind, Rudolf Weber, Thomas Graf, Nicolai Speker, and Patrick Haug. INVESTIGATION OF THE INFLUENCE OF SUPERIMPOSED INTENSITY DISTRIBUTIONS ON THE SPATTER BEHAVIOR IN LASER WELDING OF STEEL USING ONLINE X-RAY DIAGNOSTICS. Proceedings of the 37th International Congress on Applications of Lasers & Electro-Optics (ICALEO 2018), Laser Institute of America, October 2018. [PUMA: BeamShaping Capillary Diagnostics Laser LaserMatterInteraction MacroMaterialProcessing Steelsend:unibiblio Welding myown] URL

Michael Jarwitz, Jannik Lind, Rudolf Weber, Thomas Graf, Nicolai Speker, and Patrick Haug. INVESTIGATION OF THE INFLUENCE OF SUPERIMPOSED INTENSITY DISTRIBUTIONS ON THE SPATTER BEHAVIOR IN LASER WELDING OF STEEL USING ONLINE X-RAY DIAGNOSTICS. Proceedings of the 37th International Congress on Applications of Lasers & Electro-Optics (ICALEO 2018), Laser Institute of America, October 2018. [PUMA: LaserMatterInteraction myown Diagnostics Welding Capillary Laser BeamShaping MacroMaterialProcessing Steelsend:unibiblio from:michaeljarwitz] URL

Michael Jarwitz, Jannik Lind, Rudolf Weber, and Thomas Graf. Influence of superimposed intensity distributions on the welding process and the spatter behavior during laser welding of steel. Proceedings of the Lasers in Manufacturing Conference 2019, 2019. [PUMA: BeamShaping Capillary Diagnostics Laser LaserMatterInteraction MacroMaterialProcessing Welding myown]

Michael Jarwitz, Jannik Lind, Rudolf Weber, and Thomas Graf. Influence of superimposed intensity distributions on the welding process and the spatter behavior during laser welding of steel. Proceedings of the Lasers in Manufacturing Conference 2019, 2019. [PUMA: LaserMatterInteraction myown Diagnostics Welding Capillary Laser BeamShaping MacroMaterialProcessing from:michaeljarwitz]

Michael Jarwitz, Jannik Lind, Rudolf Weber, and Thomas Graf. Influence of superimposed intensity distributions on the welding process and the spatter behavior during laser welding of steel. 2019. [PUMA: BeamShaping Capillary Diagnostics Laser LaserMatterInteraction Steel Welding myown]