Didactics

Degrees and titles

Functions performed

• Janaszek A., Wróbel P., Dems M., Ceylan O., Gurbuz Y., Kubiszyn Ł., Piotrowski J., Kotyński R., 2024, Rigorous optical modelling of long-wavelength infrared photodetector with 2D subwavelength hole array in gold film, Opto-Electronics Review, vol. 32, art. e148831, 10.24425/opelre.2024.148831

• Stojek R., Pastuszczak A., Wróbel P., Kotyński R., 2022, Single pixel imaging at high pixel resolutions, Optics Express, vol. 30(13), 22730-22745, 10.1364/OE.460025

• Pastuszczak A., Stojek R., Wróbel P. and Kotynski R., 2021, Differential real-time single-pixel imaging with Fourier domain regularization - applications to VIS-IR imaging and polarization imaging, Optics Express, vol. 29(17), 26685-26700, 10.1364/OE.433199

• Bancerek M., Czajkowski K.M. and Kotyński R., 2020, Far-field signature of sub-wavelength microscopic objects, Optics Express, vol. 28(24), 36206-36218, 10.1364/OE.410240

• Czajkowski K., Pastuszczak A., and Kotyński R., 2019, Single-pixel imaging with sampling distributed over simplex vertices, Optics Letters, vol. 44(5), 1241-1244, 10.1364/OL.44.001241

• Czajkowski K., Pastuszczak A. and Kotyński R., 2018, Single-pixel imaging with Morlet wavelet correlated random patterns, Scientific Reports, vol. 8, art. 466, 10.1038/s41598-017-18968-6

• Czajkowski K.M., Pastuszczak A., Kotyński R., 2018, Real-time single-pixel video imaging with Fourier domain regularization, Optics Express, vol. 26(16), 20009-20022, 10.1364/OE.26.020009

• Pastor-Calle D., Pastuszczak A., Mikołajczyk M., Kotyński R., 2017, Compressive phase-only filtering at extreme compression rates, Optics Communications, vol. 383, 446-452, 10.1016/j.optcom.2016.09.024

• Díaz-Aviñó C., Pastor D., Zapata-Rodríguez C.J., Naserpour M., Kotyński R., and Miret J.J., 2016, Some considerations on the transmissivity of trirefringent metamaterials, Journal of the Optical Society of America B, vol. 33 (2), 116-125, 10.1364/JOSAB.33.000116

• Pastuszczak A., Szczygieł B., Mikołajczyk M., Kotynski R., 2016, Efficient adaptation of complex-valued noiselet sensing matrices for compressed single-pixel imaging, Applied Optics, vol. 55 (19), 5141-5148, 10.1364/AO.55.005141

• Pastor D., Stefaniuk T., Wróbel P., Zapata-Rodriguez C., Kotyński R., 2015, Determination of the point spread function of layered metamaterials assisted with the blind deconvolution algorithm, Optical and Quantum Electronics, vol. 47 (1), 17-26, 10.1007/s11082-014-0010-4

• Pastuszczak A., Stolarek M., Antosiewicz T.J., Kotyński R., 2015, Multilayer metamaterial absorbers inspired by perfectly matched layers, Optical and Quantum Electronics, vol. 47 (1), 89-97, 10.1007/s11082-014-9986-z

• Yavorskiy D., Stolarek M., Łusakowski J., Kotyński R., 2014, Asymmetric transmission of radially polarized THz radiation through a double circular grating, Optics Express, vol. 22 (5), 30547-30552, 10.1364/OE.22.030547

• Pastuszczak A., Stolarek M., Kotyński R., 2013, Engineering the point spread function of layered metamaterials, Opto-Electronics Review, vol. 21 (4), 355-366, 10.2478/s11772-013-0106-6

• Stolarek M., Yavorskiy D., Kotyński R., Zapata Rodríguez C., Łusakowski J., and Szoplik T., 2013, Asymmetric transmission of terahertz radiation through a double grating, Optics Letters, vol. 38 (6), 839-841, 10.1364/OL.38.000839

• Kotyński R., Antosiewicz T.J., Król K., and Panajotov K., 2011, Two-dimensional point spread matrix of layered metal–dielectric imaging elements, Journal of the Optical Society of America A - Optics Image Science and Vision, vol. 28 (2), 111-117, 10.1364/JOSAA.28.000111

• Kotyński R., Stefaniuk T., Pastuszczak A., 2011, Sub-wavelength diffraction-free imaging with low-loss metal-dielectric multilayers, Applied Physics A Materials Science & Processing, vol. 103 (3), 905–909, 10.1007/s00339-011-6286-3

• Pastuszczak A., Kotyński R., 2011, Optimized low-loss multilayers for imaging with sub-wavelength resolution in the visible wavelength range, Journal of Applied Physics, vol. 109, art. 084302, 10.1063/1.3573479

• Kotynski R., 2010, Fourier optics approach to imaging with sub-wavelength resolution through metal-dielectric multilayers, Opto-Electronics Review, vol. 18(4), 366–375, 10.2478/s11772-010-0044-5

• Kotyński R., Baghdasaryan H., Stefaniuk T., Pastuszczak A., Marciniak M., Lavrinenko A., Panajotov K., Szoplik T., 2010, Sensitivity of imaging properties of metal-dielectric layered flat lens to fabrication inaccuracies, Opto-Electronics Review, vol. 18(4), 446–457, 10.2478/s11772-010-0051-6

• Kotynski R., Stefaniuk T., 2010, Multiscale analysis of subwavelength imaging with metal–dielectric multilayers, Optics Letters, vol. 35(8), 1133-1135, 10.1364/OL.35.001133

• Kotynski R., Stefaniuk T., 2009, Comparison of imaging with sub-wavelength resolution in the canalization and resonant tunnelling regimes, Journal of Optics A: Pure and Applied Optics, vol. 11, art. 015001, 10.1088/1464-4258/11/1/015001

• Antkowiak M., Kotynski R., 2007, Comments on “Thermooptical Sensitivity Analysis of Highly Birefringent Polarimetric Sensing Photonic Crystal Fibers With Elliptically Elongated Veins”, IEEE Photonics Technology Letters, vol. 19(10), 795 - 796, 10.1109/LPT.2007.893029

• Antkowiak M., Kotyński R., Panajotov K., Berghmans F., Thienpont H., 2007, Dynamic characteristics of nonlinear Bragg gratings in photonic crystal fibres, Optical and Quantum Electronics, vol. 39(4-6), 455–467, 10.1007/s11082-007-9101-9

• Kotyński R., Dems M., Panajotov K., 2007, Waveguiding losses of micro-structured fibres—plane wave method revisited, Optical and Quantum Electronics, vol. 39(4-6), 469-479, 10.1007/s11082-007-9092-6

• Antkowiak M., Kotyński R., Panajotov K., Berghmans F., Thienpont H., 2006, Numerical Analysis of Highly Birefringent Photonic Crystal Fibers with Bragg Reflectors, Optical and Quantum Electronics, vol. 38, No 4-6, 535-545, 10.1007/s11082-006-0048-z

• Szpulak M., Urbanczyk W., Serebryannikov E., Zheltikov A., Hochman A., Leviatan Y., Kotynski R. and Panajotov K., 2006, Comparison of different methods for rigorous modeling of photonic crystal fibers, Optics Express, vol. 14(12), 5699-5714, 10.1364/OE.14.005699

• Antkowiak M., Kotynski R., Nasilowski T., Lesiak P., Wojcik J., Urbanczyk W., Berghmans F., Thienpont H., 2005, Phase and group modal birefringence of triple-defect photonic crystal fibres, Journal of Optics A: Pure and Applied Optics, vol. 7, 763-766, 10.1088/1464-4258/7/12/009

• Dems M., Kotynski R., and Panajotov K., 2005, PlaneWave Admittance Method— a novel approach for determining the electromagnetic modes in photonic structures, Optics Express, vol. 13(9), 3196-3207, 10.1364/OPEX.13.003196

• Kotynski R., Chalasinska-Macukow K., 2000, BPOF composite filter optimized with a genetic algorithm, Optica Applicata, vol. 30(2-3), 314 - 316

• Millan M.S., Perez E., Kotynski R., Chalasinska-Macukow K., 2000, Optical correlator with variable discrimination capability - Experimental results, Optica Applicata, vol. 30(2-3), 301 - 302

• Perez E., Chalasinska-Macukow K., Styczynski K., Kotynski R., Millan M.S., 1997, Dual nonlinear correlator based on computer controlled joint transform processor: Digital analysis and optical results, Journal of Modern Optics, vol. 44(8), 1535 - 1552, 10.1080/09500349708230756

Research project

• Superresolution hidden in the far-field and spatial-spectral transformations
  Role: Project leader
  Source of financing: NCN, OPUS
  Realisation period: June 29, 2018–June 28, 2022


• Optical single-pixel detection based on the theory of compressive sensing
  Role: Project leader
  Source of financing: NCN, OPUS
  Realisation period: July 8, 2015–Jan. 7, 2018


• Nowe polimerowe ogniwa fotowoltaiczne: Badanie wpływu budowy polimeru, architektury ogniwa oraz rodzaju domieszki na sprawność polimerowych ogniw słonecznych opartych na poliazometinach i politiofenach
  Role: Investigator
  Source of financing: NCBiR
  Realisation period: Dec. 1, 2012–Nov. 30, 2015


• Obrazowanie nadrozdzielcze za pomocą nanoukładów plazmonicznych
  Role: Project leader
  Source of financing: MNiSW, Promotorski
  Realisation period: June 11, 2011–Dec. 12, 2013


• Plasmonic metamaterial - linear sub-diffraction spatial filtering
  Role: Project leader
  Source of financing: NCN, OPUS
  Realisation period: Dec. 1, 2011–Nov. 30, 2013


• Podfalowe struktury fotoniczne
  Role: Investigator
  Source of financing: NCN, HARMONIA
  Realisation period: Dec. 12, 2011–June 11, 2013


• Superpryzmat plazmoniczny
  Role: Project leader
  Source of financing: MNiSW
  Realisation period: Oct. 7, 2009–Oct. 6, 2011


• Nanooptyczna supersoczewka z metamateriału w złączu fotonicznym
  Role: Project leader
  Source of financing: MNiSW
  Realisation period: March 29, 2007–March 28, 2009


• Sieć doskonałości Mikro-Optyki
  Role: Investigator
  Source of financing: MNiSW
  Realisation period: Aug. 9, 2005–Aug. 31, 2008

Research & Development Project

• Nadrozdzielcza soczewka płaska: projektowanie, wytwarzanie oraz budowa układów demonstracyjnych
  Role: Investigator
  Source of financing: NCBiR
  Realisation period: July 1, 2009–March 31, 2013

Research & Organizational Project

• PhoQuS@UW: Fostering Excellence in Photonics and Quantum Science
  Role: Co-investigator
  Source of financing: EC, 7th Framework Programme
  Realisation period: Nov. 1, 2012–Nov. 30, 2016

PhD

• Elementy dyfrakcyjne, refrakcyjne i absorpcyjne oparte na podfalowych periodycznych strukturach metalicznych
  Marcin Stolarek, Wydział Fizyki UW, 2017
• Obrazowanie nadrozdzielcze za pomocą nanoukładów plazmonicznych
  Anna Pastuszczak, Wydział Fizyki UW, 2014

Msc

• Tuning and narrowing plasmon bands of gold nanoparticles and their aggregates, with nanosecond impulse laser
  Michał Szuster, Wydział Fizyki, Uniwersytet Warszawski, 2022
• Superresolution imaging utilizing spatial-spectral transformations in the near field
  Maria Bancerek, Wydział Fizyki, Uniwersytet Warszawski, 2020
• Compressive hyperspectral imaging supported by the use of a priori knowledge, application to plasmonic sensors
  Rafał Stojek, Wydział Fizyki, Uniwersytet Warszawski, 2020
• Optoelectronic characterization of solar energy devices under concentrated illumination
  Krzysztof Czajkowski, Wydział Fizyki UW, 2016
• Modeling surface waves on metallic microstructures at terahertz frequencies
  Dominika Świtlik, Wydział Fizyki UW, 2012
• Diffraction-free imagining in metal-dielectric multilayers
  Marcin Stolarek, Wydział Fizyki UW, 2010

Bachelor

• Spectrometry based on the theory of compressive sensing
  Anna Kęsik, Wydział Fizyki, Uniwersytet Warszawski, 2019
• Dyakonov waves at the boundaries of biaxial anisotropic media
  Maria Bancerek, Wydział Fizyki, 2018
• Scanning microscopy with an incomplete scanning path - image reconstruction using methods originating from the theory of compressed sensing
  Aleksandra Fedorczyk, Wydział Fizyki UW, 2017
• Single-pixel detection with compressive sensing
  Michał Mikołajczyk, Wydział Fizyki UW, 2015
• Modeling of light propagation in photonic nanostructures using the finite element method
  Bartosz Wieciech, Wydział Fizyki UW, 2014
• Super-resolving layered flat nanolenses
  Mateusz Wlazło, Wydział Fizyki UW, 2012

Doctoral dissertations

• High refractive index VCSELs
  Marcin Gębski, Wydział Fizyki technicznej, Informatyki i Matematyki stosowanej Politechniki Łódzkiej, 2017
• Image Formation with Plasmonic Nanostructures
  David Pastor Calle, Uniwersytet w Walencji, 2015

Master of Science Dissartations

• Plasmonic nanorod metamaterials
  Katarzyna Pietrusińska, Uniwersytet Warszawski, Wydział Fizyki, 2022
• Fabrication and analysis of metallic nanostructures for light trapping
  Arkadiusz Ciesielski, Wydział Fizyki UW, 2014
• Electromagnetic waves on material boundaries
  Tho Do Duc, Wydział Fizyki, 2006

Bachelor thesis

• Z-scan measurements of nonlinear refractive index and nonlinear absorption values of materials
  Szymon Czarnas, Wydział Fizyki, Uniwersytet Warszawski, 2023
• Third harmonic generation in ENZ materials
  Katarzyna Brańko, Wydział Fizyki, Uniwersytet Warszawski, 2023
• Fabrication and investigation of plasmonic properties of quasi-continuous metallic layers for applications in biosensors
  Małgorzata Jakubowska, Wydział Fizyki UW, 2021
• Fabrication of plasmonic nanostructures by means of physical vapor deposition for biosensing applications
  Mihai Suster, Wydział Fizyki UW, 2020
• Optical and physical properties of indium tin oxide based plasmonic nanostructures
  Julia Szymczak, Wydział Fizyki, 2018
• Light absorption in nanoparticles coupled with metallic resonators
  Krzysztof Serwan, Wydział Fizyki UW, 2016
• Investigating the impact of nanoparticles produced by a low-temperature melting of thin metal films on polymer organic solar cells’ properties
  Marcin Byra, Wydział Fizyki UW, 2016
• Methods of intraocular pressure measurement
  Cezary Pokropek, Wydział Fizyki, 2012

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