Publications

Florian Bienert, Thomas Graf, und Marwan Abdou Ahmed. High-precision measurement of the period chirp of pulse compression gratings. Laser Congress 2023 (ASSL, LAC), ATu2A.3, Optica Publishing Group, 2023. [PUMA: chirp high interference measurement myown peer period precision] URL

Florian Bienert, Christoph Röcker, Tom Dietrich, Thomas Graf, und Marwan Abdou Ahmed. Detrimental effects of period-chirped gratings in pulse compressors. Opt. Express, (31)24:40687--40704, Optica Publishing Group, November 2023. [PUMA: CPA chirp compressor interference laser lithography myown peer period pulse] URL

Florian Bienert, Christoph Röcker, Thomas Graf, und Marwan Abdou Ahmed. Simple spatially resolved period measurement of chirped pulse compression gratings. Opt. Express, (31)12:19392--19403, Optica Publishing Group, Juni 2023. [PUMA: myown chirp diffraction peer interference diffraction_grating from:florianbienert] URL

Florian Bienert, Thomas Graf, und Marwan Abdou Ahmed. General mathematical model for the period chirp in interference lithography. Opt. Express, (31)4:5334--5346, Optica Publishing Group, Februar 2023. [PUMA: chirp diffraction diffraction_grating interference myown peer] URL

Florian Bienert, Thomas Graf, und Marwan Abdou Ahmed. General mathematical model for the period chirp in interference lithography. Opt. Express, (31)4:5334--5346, Optica Publishing Group, Februar 2023. [PUMA: myown chirp period Interference diffraction Laser-Interference-Lithography diffraction_grating shaping from:florianbienert mathematical Beam peer Laser beams gratings interference model Gaussian Holographic Scanning-Beam-Interference-Lithography] URL

Florian Bienert, Thomas Graf, und Marwan Abdou Ahmed. Theoretical investigation on the elimination of the period chirp by deliberate substrate deformations. Optics Express, (30)13:22410, Optica Publishing Group, Juni 2022. [PUMA: LIL algorithm chirp diffraction diffraction_grating grating interference interference_lithography myown peer therory] URL

Florian Bienert, Thomas Graf, und Marwan Abdou Ahmed. Theoretical investigation on the elimination of the period chirp by deliberate substrate deformations. Optics Express, (30)13:22410, Optica Publishing Group, Juni 2022. [PUMA: myown chirp diffraction diffraction_grating interference_lithography LIL from:florianbienert grating peer interference therory algorithm] URL

Florian Bienert, Thomas Graf, und Marwan Abdou Ahmed. Comprehensive theoretical analysis of the period chirp in laser interference lithography. Appl. Opt., (61)9:2313--2326, OSA, März 2022. [PUMA: chirp period Interference diffraction_grating Laser_beam ltihography interference_lithography from:florianbienert ifsw Diffraction grating] URL

Florian Bienert, Thomas Graf, und Marwan Abdou Ahmed. Comprehensive theoretical analysis of the period chirp in laser interference lithography. Appl. Opt., (61)9:2313--2326, OSA, März 2022. [PUMA: Diffraction Interference Laser_beam chirp diffraction_grating grating ifsw interference_lithography ltihography period] URL

J. Chi, J. Wagner, J. Anders, und M. Ortmanns. Digital interferer suppression and jitter reduction in continuous-time bandpass ΣΔ modulators. 2017 IEEE International Symposium on Circuits and Systems (ISCAS), 1-4, Mai 2017. [PUMA: Sigma interference Delta modulators suppressions from:jens.anders] URL

J. Chi, J. Wagner, J. Anders, und M. Ortmanns. Digital interferer suppression and jitter reduction in continuous-time bandpass ΣΔ modulators. 2017 IEEE International Symposium on Circuits and Systems (ISCAS), 1-4, Mai 2017. [PUMA: Delta Sigma interference modulators suppressions] URL

Yuan Qin, Andreas Michalowski, Rudolf Weber, Sen Yang, Thomas Graf, und Xiaowu Ni. Comparison between ray-tracing and physical optics for the computation of light absorption in capillaries -- the influence of diffraction and interference. Opt. Express, (20)24:26606--26617, OSA, November 2012. [PUMA: Absorption Capillary Diffraction Interference Laser RayTracing from:peterberger peer] URL

Yuan Qin, Andreas Michalowski, Rudolf Weber, Sen Yang, Thomas Graf, und Xiaowu Ni. Comparison between ray-tracing and physical optics for the computation of light absorption in capillaries -- the influence of diffraction and interference. Opt. Express, (20)24:26606--26617, OSA, November 2012. [PUMA: Absorption Capillary Diffraction Interference Laser RayTracing] URL

Jonas H. Weber, Jan Kettler, Hüseyin Vural, Markus Müller, Julian Maisch, Michael Jetter, Simone L. Portalupi, und Peter Michler. Overcoming correlation fluctuations in two-photon interference experiments with differently bright and independently blinking remote quantum emitters. Phys. Rev. B, (97)19:195414, American Physical Society, Mai 2018. [PUMA: emitter photon quantum interference] URL

Shahin Bagheri, Nikolai Strohfeldt, Florian Sterl, Audrey Berrier, Andreas Tittl, und Harald Giessen. Large-Area Low-Cost Plasmonic Perfect Absorber Chemical Sensor Fabricated by Laser Interference Lithography. ACS SENSORS, (1)9:1148-1154, AMER CHEMICAL SOC, 1155 16TH ST, NW, WASHINGTON, DC 20036 USA, September 2016. [PUMA: absorber; fabrication; hydrogen interference large-area laser lithography} perfect sensing; {plasmonics;]