List of Publications

[1]T. Lipka, B. Bosnjak, N. Alhareeb, L. Rennpferdt, M. Vermeer, R. H. Blick, and H. K. Trieu, “High Refractive Index Integrated Photonics on Glass Substrates”, MikroSystemTechnik Kongress 2021 (submitted)
[2]M.L. Vermeer, N. Alhareeb, H.K. Trieu, and T. Lipka, “Athermal electro-optic trimmable waveguide design”, MikroSystemTechnik Kongress 2021 (submitted)
[3]J. Singer, A. Geläschus, C. Schuster, H.K. Trieu, M. Kuhl, “Integrierte optoelektronische Systeme basierend auf hochempfindlichen Einzelphotonendetektoren für optogenetische Anwendungen”, MikroSystemTechnik Kongress 2021 (submitted)
[4]C. Yang, M. Schierholz, E. Trunczik, L.M. Helmich, H.D. Brüns, and C. Schuster, “Efficient and Flexible Huygens’ Source Replacement of mm-scale Human Brain Implant”, Joint IEEE International Symposium on Electromagnetic Compatibility, Signal & Power Integrity, EMC Europe, 2021
[5]T. Lipka, H.K. Trieu, “Optical Microring Resonance Split Removal via Localized Photolytic Refractive Index Modifications”, Conference on Lasers and Electro-Optics/Europe – European Quantum Electronics Virtual Conferences (2021)
[6]Faragalla, Mohamed; Krautschneider, Wolfgang H; Kuhl, Matthias; Low-Leakage Differential-Drive Rectifier as 13.56 MHz Inductive Energy Harvester for Deep Medical Implants with Field Exposure Compliance 2021 IEEE International Symposium on Circuits and Systems (ISCAS) accepted for publication 2021 IEEE
[7] M. A. Gaafar, J. Holtorf, M. Eich, and A. Y. Petrov, “Pulse time reversal and stopping by a refractive index front” APL Photonics, vol. 5, p. 080801, Aug 2020
[8]S. Shojaei Khatouni, J. Ewald, H.K. Trieu, “Application of Machine Learning Algorithms for the Analysis of an Optical Fiber Sensor for Use in Endovascular Coiling of Intracranial Aneurysms”, Sensor and Measurement Science International (SMSI 2020)
[9]S. Shojaei Khatouni, L. Rennpferdt, H.K. Trieu, “Photonic Measurement System for Load Detection in a Neuro Interventional Training Model”, Sensor and Measurement Science International (SMSI 2020)
[10]P. Zhao, L. Tiemann, H.K. Trieu, R.H. Blick, “Acoustically driven Dirac electrons in monolayer graphene”, Applied Physics Letters 10 (116): 103102 (2020-03-09), doi: 10.1063/1.5139498
[11]P. Zhao, “High frequency sensing mechanisms for two dimensional carrier systems”, Dissertation at TUHH (Institute of Microsystems Technology), Feb 2020
[12]Solis-Arbustini, Johan; Mendoza-Ponce, Pablo; Krautschneider, Wolfgang H; Kuhl, Matthias; A 16-bit Pressure Sensing Interface Integrating a 460 fJ/conv Incremental Sigma Delta ADC for Medical Devices 2020 IEEE 11th Latin American Symposium on Circuits & Systems (LASCAS) 01-Apr 2020 IEEE
[13]Ponce, Pablo Mendoza; Sayed, Gayas; Saleh, Lait Abu; Krautschneider, Wolfgang H; Kuhl, Matthias; A 1.9 nW Timer and Clock Generation Unit for Low Data-Rate Implantable Medical Devices 2020 IEEE 11th Latin American Symposium on Circuits & Systems (LASCAS) 01-Apr 2020 IEEE
[14]M. A. Gaafar, H. Renner, A. Y. Petrov, and M. Eich, “Linear Schrödinger equation with temporal evolution for front induced transitions,” Optics Express, vol. 27, no. 15, pp. 21273–21284, Jul 2019
[15]T. Lipka, I. Gomberg, H.K. Trieu, “Permanent Optimization of Large-FSR Dual-Microring Bandpass Filters”, Conference on Lasers and Electro-Optics/Europe – European Quantum Electronics Virtual Conferences (2019)
[16]L. Moldenhauer, “Dispersion engineered photonic biosensor: from a chip-for-the-lab to a lab-on-chip”, Dr Hut Verlag (2019)
[17]T. Lipka, H.K. Trieu, “On-chip microring resonator transducer principle for measuring optical and optofluidic sensors”, MikroSystemTechnik Kongress, Mikroelektronik MEMS: Systemintegration – Säulen der Digitalisierung und künstlichen Intelligenz, VDE-Verlag (2019)
[18]L. S. Fohrmann, N. Lotfi, B. Alzein, M. A. Gaafar, A. Y. Petrov, and M. Eich, “Free-carrier detection in a silicon slab via absorption measurement in 2d integrating cells,” Optics Letters, vol. 44, no. 1, pp. 175–178, Jan 2019
[19]T. Aalto, M. Cherchi, M. Eich, M. Harjanne, D. Jalas, and A. Petrov, “Integrated Faraday rotator,” World patent WO002019038477 A1, 2019
[20]M. A. Gaafar, T. Baba, M. Eich, A. Petrov, “Front-induced transitions,” Nature Photonics, vol. 13, pp. 737-748, Nov 2019
[21]Ponce, Pablo Mendoza; Saleh, Lait Abu; Krautschneider, Wolfgang; Kuhl, Matthias; 3D-printing technology as a tool for medical implantable electronic devices Transactions on Additive Manufacturing Meets Medicine 1 1 2019
[22]Shui, Boyu; Dorigo, Daniel De; Herbawi, Abdalrahman Sayed; Ruther, Patrick; Paul, Oliver; Manoli, Yiannos; Kuhl, Matthias; A Slim Needle Neural Probe with 160 Active Recording Sites and Selectable ADCs Biomedical Circuits and Systems Conference (BioCAS), 2019 IEEE 2019
[23]J. Hoffmann, K. M. Schulz, G. Pitruzzello, L. S. Fohrmann, A. Y. Petrov, and M. Eich, “Backscattering design for a focusing grating coupler with fully etched slots for transverse magnetic modes,” Scientific Reports, vol. 8, p. 17746, Dec 2018
[24]L. S. Fohrmann, G. Pitruzzello, A. Y. Petrov, and M. Eich, “Coupling between multimode fibers and slab waveguides,” Optics Express, vol. 26, no. 23, pp. 30255–30266, Nov 2018
[25]M. A. Gaafar, D. Jalas, L. O'Faolain, J. Li, T. F. Krauss, A. Petrov, M. Eich, “Reflection from a free carrier front via an intraband indirect photonic transition,” Nature communications, vol. 9, p. 1447, 2018
[26]De Dorigo, Daniel; Moranz, Christian; Graf, Hagen; Marx, Maximilian; Wendler, Daniel; Shui, Boyu; Herbawi, Abdalrahman Sayed; Kuhl, Matthias; Ruther, Patrick; Paul, Oliver; Fully Immersible Subcortical Neural Probes With Modular Architecture and a Delta-Sigma ADC Integrated Under Each Electrode for Parallel Readout of 144 Recording Sites IEEE Journal of Solid-State Circuits 53 11 3111-3125 2018 IEEE
[27]Sayed, Gayas Mohiuddin; Mendoza-Ponce, Pablo; Krautschneider, Wolfgang; Kuhl, Matthias; Ultra-Low-Power Self-Biased 1 nA Current Reference Circuit for Medical Monitoring Devices in 350 nm and 180 nm CMOS Technology ANALOG 2018; 16th GMM/ITG-Symposium 2018 VDE