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Ehem. Mitarbeiter

Hendrik Kleene, M.Sc.

Anschrift

Technische Universität Dortmund
Lehrstuhl für Hochfrequenztechnik
Dr.-Ing. Andreas Ahland
Friedrich-Wöhler-Weg 4
D-44227 Dortmund

Kontakt

Telefon: über das Sekretariat
des Lehrstuhls:
+49 (0)231 755 - 2491

Forschungsgebiete:

  • Effiziente elektromagnetische Zeitbereichsberechnungen für die Analyse von Komponenten der Photonik und der THz-Technik

Publikationen:

  • H. Kleene and D. Schulz, "Assessment of a Time Domain Beam Propagation Algorithm Based on Faber Polynomial Expansions ", IEEE MTT-S Conference on Numerical Electromagnetic and Multiphysics Modeling and Optimization, Boston, USA, May 2019
  • H. Kleene and D. Schulz, "Time Domain Solution of Maxwell’s Equations using Faber Polynomials ", IEEE Transactions on Antennas and Propagation, vol 66, no. 11, pp. 6202-6208, 2018
  • H. Kleene and D. Schulz, "Concept of a Complex Envelope Faber Polynomial Approach for the Solution of Maxwell’s Equations ", IEEE MTT-S International Conference on Numerical Electromagnetic and Multiphysics Modeling and Optimization, Reykjavik, Island, Aug. 2018
  • H. Kleene and D. Schulz, "On the Evaluation of Sources in Highly Accurate Time Domain Simulations on the Basis of Faber Polynomials", Progress in Electromagnetics Research 2018, Toyama, Japan, July 2018
  • H. Kleene, D. Schulz, "An Assessment of Faber Polynomial Expansions for the Time Domain Solution of Maxwell’s equations", 26th International workshop on optical wave and waveguide theory and numerical modelling OWTNM, 2018, Bad Sassendorf, Germany
  • C. Spenner, H. Kleene, P. Sarapukdee, K. Kallis, D. Schulz, "Analysis of SiO2- and MgF2-Based Surface Plasmon Resonance Sensors", 26th International workshop on optical wave and waveguide theory and numerical modelling OWTNM, 2018, Bad Sassendorf, Germany
  • H. Kleene, D. Schulz, "Efficient Electromagnetic Time Domain Simulation on the Basis of Faber Polynomial Expansions", 11th Annual Meeting Photonic Devices, February 2018, Berlin, Germany
  • H. Kleene, D. Schulz, "Unitary Polynomial Propagator Solving Maxwell’s Equations Allowing Arbitrarily Large Time Steps", IEEE Photonics Technology Letters, vol. 30, no. 2, pp. 193-196, January 2018
  • H. Kleene, D. Schulz, "Electromagnetic time domain simulation of photonic devices: Concept to enable larger time steps for explicit methods", Matheon workshop on photonic devices, February 2017, Berlin, Germany
  • H. Kleene, D. Schulz, "Investigation of a Unitary Explicit Algorithm for Electromagnetic Time Domain Simulations", 25th International workshop on optical wave and waveguide theory and numerical modelling, 2017, Eindhoven, Netherlands
  • H. Kleene, D. Schulz, "An Assessment of Polynomial Approximations for the Time-Domain Beam Propagator", 24th International workshop on optical wave and waveguide theory and numerical modelling,O-31, 2016, Warsaw, Poland
  • H. Kleene, D. Schulz, "Assessment of Chebychev Expansions for the Approximation of the Time Domain Propagator", in Advanced Photonics for Communications, OSA Technical Digest (online), Optical Society of America, paper JTu4A.11, 2016