In the subject of Geometry, Arkadi Rosenfeld integrates adjacent scientific disciplines such as Surface (topology) and Perpendicular. Surface (topology) is closely attributed to Geometry in his study. In his articles, Arkadi Rosenfeld combines various disciplines, including Optics and Superposition principle. He connects Superposition principle with Quantum mechanics in his research. Arkadi Rosenfeld conducts interdisciplinary study in the fields of Quantum mechanics and Electromagnetic field through his research. In his work, he performs multidisciplinary research in Laser and Diffraction. He integrates Diffraction with Scattering in his study. His work often combines Scattering and Laser studies. His Optoelectronics study frequently links to adjacent areas such as Silicon.
Many of his studies on Nanostructure apply to Nanotechnology and Quantum mechanics as well. Arkadi Rosenfeld connects Nanotechnology with Nanostructure in his study. His Quantum mechanics study often links to related topics such as Irradiation. As part of his studies on Irradiation, he often connects relevant areas like Fluence. The study of Optics is intertwined with the study of Laser beams in a number of ways. His work blends Laser and Microscopy studies together. He integrates Microscopy with Laser in his study. As part of his studies on Optoelectronics, Arkadi Rosenfeld often connects relevant areas like Dielectric. He integrates Femtosecond and Wavelength in his research.
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Femtosecond laser-induced periodic surface structures
J. Bonse;J. Krüger;S. Höhm;A. Rosenfeld.
Journal of Laser Applications (2012)
Laser-Induced Periodic Surface Structures— A Scientific Evergreen
Jorn Bonse;Sandra Hohm;Sabrina V. Kirner;Arkadi Rosenfeld.
IEEE Journal of Selected Topics in Quantum Electronics (2017)
On the role of surface plasmon polaritons in the formation of laser-induced periodic surface structures upon irradiation of silicon by femtosecond-laser pulses
Jörn Bonse;Arkadi Rosenfeld;Jörg Krüger.
Journal of Applied Physics (2009)
Femtosecond laser-induced periodic surface structures revisited: A comparative study on ZnO
D. Dufft;A. Rosenfeld;S. K. Das;R. Grunwald.
Journal of Applied Physics (2009)
Micromachining of quartz with ultrashort laser pulses
H. Varel;D. Ashkenasi;A. Rosenfeld;M. Wähmer.
Applied Physics A (1997)
Laser processing of sapphire with picosecond and sub-picosecond pulses
D Ashkenasi;A Rosenfeld;H Varel;M Wähmer.
Applied Surface Science (1997)
Surface damage threshold and structuring of dielectrics using femtosecond laser pulses: the role of incubation
D Ashkenasi;M Lorenz;R Stoian;A Rosenfeld.
Applied Surface Science (1999)
Ultrashort-laser-pulse damage threshold of transparent materials and the role of incubation
A. Rosenfeld;M. Lorenz;R. Stoian;D. Ashkenasi.
Applied Physics A (1999)
Surface charging and impulsive ion ejection during ultrashort pulsed laser ablation.
R. Stoian;A. Rosenfeld;D. Ashkenasi;I. V. Hertel.
Physical Review Letters (2002)
Electronic transport and consequences for material removal in ultrafast pulsed laser ablation of materials
N. M. Bulgakova;R. Stoian;A. Rosenfeld;I. V. Hertel.
Physical Review B (2004)
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