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A.M. Nugrowati
Researcher at Leiden University
Publications - 11
Citations - 290
A.M. Nugrowati is an academic researcher from Leiden University. The author has contributed to research in topics: Diffraction & Lithography. The author has an hindex of 6, co-authored 11 publications receiving 265 citations. Previous affiliations of A.M. Nugrowati include Delft University of Technology.
Papers
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Journal ArticleDOI
Numerical analysis of a slit-groove diffraction problem
Mondher Besbes,Jean-Paul Hugonin,Philippe Lalanne,S van Haver,O.T.A. Janssen,A.M. Nugrowati,M. Xu,Silvania F. Pereira,H.P. Urbach,H.P. Urbach,A.S. Van de Nes,Peter Bienstman,Gérard Granet,Antoine Moreau,Stefan F. Helfert,Maxim Sukharev,Tamar Seideman,Fadi Issam Baida,Brahim Guizal,D. Van Labeke +19 more
TL;DR: In this paper, a comparison among several fully-vectorial methods applied to a basic scattering problem governed by the physics of the electromagnetic interaction between subwavelength apertures in a metal film is presented.
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Spin Hall effect of light in metallic reflection.
TL;DR: The first measurement of the spin Hall effect of light (SHEL) on an air-metal interface is reported, which is a polarization-dependent out-of-plane shift on the reflected beam.
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Position measurement of non-integer OAM beams with structurally invariant propagation
TL;DR: A design to generate structurally propagation invariant light beams carrying non-integer orbital angular momentum (OAM) using Hermite-Laguerre-Gaussian (HLG) modes, which simplifies the calibration technique for beam positional measurement using a quadrant detector.
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Near and intermediate fields of an ultrashort pulse transmitted through Young's double-slit experiment
TL;DR: In this paper, a systematic study of the transmitted field of an ultrashort pulse through Young's double slit is presented, where the spatial-temporal distribution of the field in the near and intermediate zone is affected by the input polarization state of the pulse.
Journal ArticleDOI
Direct measurement of the near-field super resolved focused spot in InSb
A. C. Assafrao,A. J. H. Wachters,Marcel A. Verheijen,A.M. Nugrowati,Silvania F. Pereira,H. P. Urbach,Marie-Francoise Armand,Segolene Olivier +7 more
TL;DR: The measured spot size was found to be dependent on the laser power and a decrease of 25% (100 nm) was observed, which is in excellent agreement with rigorous simulations obtained with a three dimensional Finite Element Method code.