Publications

2024

  • BBH Kovács, and M. Erdélyi: Methods for calculating gliding-box lacunarity efficiently on large datasets, Pattern Analysis and Applications 27(4), 113 doi: 10.1007/s10044-024-01332-6
  • Tibor Novák, Péter Bíró, Györgyi Ferenc, Ditta Ungor, Elvira Czvik, Ágota Deák, László Janovák, Miklós Erdélyi, “Using polarization sensitive SMLM to infer the interaction strength of dye-plasmonic nanosphere systems“, Optics Communications, (arXiv doi: 10.48550/arXiv.2401.05231)
  • Barbara Dukic, Zsófia Ruppert, Melinda E. Tóth, Ákos Hunya, Ágnes Czibula, Péter Bíró, Ádám Tiszlavicz, Mária Péter, Gábor Balogh, Miklós Erdélyi, Gyula Timinszky, László Vígh, Imre Gombos, Zsolt Török, “Mild hyperthermia-induced thermogenesis in the endoplasmic reticulum defines stress response mechanisms”, Cells 13(13), 1141 doi: 10.3390/cells13131141
  • Adél Szerlauth, Tamara Madácsy, Gergely Ferenc Samu, Péter Bíró, Miklós Erdélyi, Gábor Varga, Zhi Ping Xu, József Maléth, István Szilágyi, “Reduction of intracellular oxidative stress with a copper-incorporated layered double hydroxide”, Chemical Communications, 60(10), 1325-1328 doi: 10.1039/D3CC05762C
  • Péter Bíró, Tibor Novák, Elvira Czvik, József Mihály, Szilárd Szikora, Sebastian van de Linde, and Miklós Erdélyi, “Triggered cagedSTORM microscopy,”
    Biomed. Opt. Express, 15(6), 3715-3726 (2024) doi: 10.1364/BOE.517480
  • Farkas D, Szikora S, Jijumon AS, Polgár TF, Patai R, Tóth MÁ, et al. (2024) Peripheral thickening of the sarcomeres and pointed end elongation of the thin filaments are both promoted by SALS and its formin interaction partners.
    PLoS Genet 20(1): e1011117. doi: 10.1371/journal.pgen.1011117

2023

  • Orsolya Németh-Szatmári, Bence Nagy-Mikó, Ádám Györkei, Dániel Varga, Bálint Barna H Kovács, Nóra Igaz, Bence Bognár, Zsolt Rázga, Gábor Nagy, Nóra Zsindely, László Bodai, Balázs Papp, Miklós Erdélyi, Mónika Kiricsi, András Blastyák, Martine A Collart, Imre M Boros, Zoltán Villányi (2023). Phase-separated ribosome-nascent chain complexes in genotoxic stress response, RNA, 29(10) 1557-1574. doi: 10.1261/rna.079755.123
  • Nicanor González-Morales, Océane Marescal, Szilárd Szikora, Anja Katzemich, Tuana Correia-Mesquita, Péter Bíró, Miklos Erdelyi, József Mihály, Frieder Schöck (2023). The oxoglutarate dehydrogenase complex is involved in myofibril growth and Z-disc assembly in Drosophila, Journal of Cell Science, jcs. 260717, doi: 10.1242/jcs.260717
  • Pajer, K., Bellák, T., Grósz, T., Nógrádi, B., Patai, R., Sinkó, J., … & Nógrádi, A. (2023). Riluzole treatment modulates KCC2 and EAAT-2 receptor expression and Ca2+ accumulation following ventral root avulsion injury.
    European Journal of Cell Biology, 151317. doi: 10.1016/j.ejcb.2023.151317
  • Szegedi, V., Bakos, E., Furdan, S., Kovács, B. H., Varga, D., Erdélyi, M., … & Lamsa, K. (2023). HCN channels at the cell soma ensure the rapid electrical reactivity of fast-spiking interneurons in human neocortex.
    Plos Biology, 21(2), e3002001. doi: 10.1371/journal.pbio.3002001
  • Varga, D., Szikora, S., Novák, T., Pap, G., Lékó, G., Mihály, J., & Erdélyi, M. (2023). Machine learning framework to segment sarcomeric structures in SMLM data.
    Scientific Reports, 13(1), 1582. doi: 10.1038/s41598-023-28539-7

2022

  • Novák, T., Varga, D., Bíró, P., H. Kovács, B. B., Majoros, H., Pankotai, T., … & Erdélyi, M. (2022). Quantitative dSTORM superresolution microscopy.
    Resolution and Discovery. doi: doi.org/10.1556/2051.2022.00093 (IF:)
  • Kovács, B. B. H., Varga, D., Sebők, D., Majoros, H., Polanek, R., Pankotai, T., … & Erdélyi, M. (2022). Application of Lacunarity for Quantification of Single Molecule Localization Microscopy Images. 
    Cells. doi: https://doi.org/10.3390/cells11193105 (IF:)
  • Novák, T. (2022) Simulative and experimental examination of localization microscopy modalities Doctoral dissertation, University of Szeged, doi: https://doktori.bibl.u-szeged.hu/id/eprint/11454/
  • Varga, D. (2022) Quantitative analysis of superresolution localization microscopy measurements.
    Doctoral dissertation, University of Szeged, doi: https://doktori.bibl.u-szeged.hu/id/eprint/11283
  • Szabo, K., Varga, D., Vegh, A. G., Liu, N., Xiao, X., Xu, L., … & Keller-Pinter, A. (2022). Syndecan-4 affects myogenesis via Rac1-mediated actin remodeling and exhibits copy-number amplification and increased expression in human rhabdomyosarcoma tumors.
    Cellular and Molecular Life Sciences, 79(2), 1-21., doi: 10.1007/s00018-021-04121-0 (IF: 9.261)

2021

  • Erdélyi, M. (2021) Szuperrezolúciós optikai módszerek fejlesztése és mikroszkópiai alkalmazása.
    Thesis, Hungarian Academy of Science, doi: http://real-d.mtak.hu/id/eprint/1306
  • González-Morales, N., Marescal, O., Szikora, Sz., Erdélyi, M., Bíró, P., … & Schöck, F. (2021). Oxoglutarate dehydrogenase coordinates myofibril growth by maintaining amino acid homeostasis.
    bioRxiv, doi: 10.1101/2021.12.13.472149
  • Brunner, S., Varga, D., Bozó, R., Polanek, R., Tőkés, T., Szabó, E. R., … & Hideghéty, K. (2021). Analysis of Ionizing Radiation Induced DNA Damage by Superresolution dSTORM Microscopy.
    Pathology and Oncology Research, 148., doi: 10.3389/pore.2021.1609971 (IF: 3.201)

2020

  • Becsky, D., Szabó, K., Gyulai-Nagy, Sz., Gajdos, T., Bartos, Zs., Balind, Á., … & Keller-Pintér, A. (2020): Syndecan-4 Modulates Cell Polarity and Migration by Influencing Centrosome Positioning and Intracellular Calcium Distribution,
    Frontiers in Cell and Developmental Biology, doi: 10.3389/fcell.2020.575227 (IF: 5.201),
    Editor’s Pick 2021: Highlights in Cell Adhesion and Migration
  • Tóth, E., Ungor, D., Novák, T., Ferenc, Gy., Bánhelyi, B., Csapó ,E., … & Csete, M. (2020): Mapping Fluorescence Enhancement of Plasmonic Nanorod Coupled Dye Molecules,
    Nanomaterials, doi: 10.3390/nano10061048 (IF: 4.324)
  • Gajdos, T. (2020) Superresolution localization microscopy using multiple modalities.
    Doctoral dissertation, University of Szeged, doi: 10.14232/phd.10417
  • Varga, D., Majoros, H., Újfaludi, Zs., Pankotai, T., & Erdélyi, M. (2020, February). Quantification of labelled target molecules via super-resolution dSTORM localization microscopy. In Single Molecule Spectroscopy and Superresolution Imaging XIII (Vol. 11246, p. 1124612). International Society for Optics and Photonics.
    SPIE, doi: 10.1117/12.2545099
  • Gajdos, T., Hopp, B. & Erdélyi, M. (2020): Hot-band anti-Stokes fluorescence properties of Alexa Fluor 568.
    Journal of Fluorescence, doi: 10.1007/s10895-020-02496-0 (IF: 1.913)
  • Szikora, Sz., Gajdos, T., Novák, T., Farkas, D., Földi, I., Lenart, P., … & Mihály, J. (2020). Nanoscopy reveals the layered organization of the sarcomeric H-zone and I-band complexes.
    The Journal of cell biology, doi:10.1083/jcb.201907026 (IF: 8.891)

    Additional related material:
    1. Bio-protocol: Szikora, S., Novák, T., Gajdos, T., Erdélyi, M. and Mihály, J. (2020). Superresolution Microscopy of Drosophila Indirect Flight Muscle Sarcomeres. Bio-protocol 10(12): e3654. doi: 10.21769/BioProtoc.3654
    2. Commentary: González-Morales, N., & Schöck, F. (2020). Nanoscopy reveals the layered organization of the sarcomeric H-zone and I-band complexes.
      Frontiers in Cell and Developmental Biology, doi: 10.3389/fcell.2020.00074

2019

  • E. Gyukity-Sebestyén, M. Harmati, G. Dobra, I. B. Németh, J. Mihály, Á. Zvara, É. Hunyadi-Gulyás, R. Katona, I. Nagy, P. Horváth, Á. Bálind, Á. Szkalisity, M. Kovács, T. Pankotai, B. Borsos, M. Erdélyi, Sz. Szegletes, Z. Vereb, E. I. Buzás, L. Kemény, T. Bíró and K. Búzás: Melanoma-Derived Exosomes Induce PD-1 Overexpression and Tumor Progression via Mesenchymal Stem Cell Oncogenic Reprogramming.
    Frontiers in immunology    , doi: 10.3389/fimmu.2019.02459 (IF: 4.716)
  • Varga, D., Majoros, H., Ujfaludi, Z., Erdélyi, M., & Pankotai, T. (2019). Quantification of DNA damage induced repair focus formation via super-resolution dSTORM localization microscopy.
    Nanoscale, doi: 10.1039/C9NR03696B (IF: 6.970)
  • Gajdos, T., Cserteg, Z., Szikora, S., Novák, T., Kovács, B. B. H., Szabó, G., … & Erdélyi, M. (2019). mmSTORM: Multimodal localization based super-resolution microscopy.
    Scientific Reports, doi: 10.1038/s41598-018-37341-9 (IF: 4.011)

2017

  • Novák, T., Gajdos, T., Sinkó, J., Szabó, G., & Erdélyi, M. (2017). TestSTORM: Versatile simulator software for multimodal super-resolution localization fluorescence microscopy.
    Scientific Reports, doi: 10.1038/s41598-017-01122-7 (IF: 5.05)
  • Erdélyi, M., Sinkó, J., Gajdos, T., & Novák, T. (2017, February). Enhanced simulator software for image validation and interpretation for multimodal localization super-resolution fluorescence microscopy. In Single Molecule Spectroscopy and Superresolution Imaging X (Vol. 10071, p. 100710X). International Society for Optics and Photonics.
    SPIE, doi: 10.1117/12.2250116.
  • Sinkó, J., Gajdos, T., Czvik, E., Szabó, G., & Erdélyi, M. (2017). Polarization sensitive localization based super-resolution microscopy with a birefringent wedge.
    Methods and Applications in Fluorescence, doi: 10.1088/2050-6120/aa6260, (IF: 2.429)
  • Gielen, F., Butz, M., Rees, E. J., Erdelyi, M., Moschetti, T., Hyvönen, M., … & Hollfelder, F. (2017). Quantitative affinity determination by fluorescence anisotropy measurements of individual nanoliter droplets.
    Analytical Chemistry, doi: 10.1021/acs.analchem.6b02528, (IF: 5.886)

2015

  • Manetsberger, J., Manton, J. D., Erdelyi, M. J., Lin, H., Rees, D., Christie, G., & Rees, E. J. (2015). Ellipsoid localization microscopy infers the size and order of protein layers in Bacillus spore coats.
    Biophysical Journal, doi: 10.1016/j.bpj.2015.09.023, (IF: 3.972)
  • Steuwe, C., Erdelyi, M., Szekeres, G., Csete, M., Baumberg, J. J., Mahajan, S., & Kaminski, C. F. (2015, August). Visualisation of plasmonic fields at the nanoscale with single molecule localisation microscopy.
    In Nanoimaging and Nanospectroscopy III (Vol. 9554, p. 95540Q). International Society for Optics and Photonics. doi: 10.1117/12.2190835
  • Erdélyi, M., Sinkó, J., Kákonyi, R., Kelemen, A., Rees, E., Varga, D., & Szabó, G. (2015). Origin and compensation of imaging artefacts in localization-based super-resolution microscopy.
    Methods, doi: 10.1016/j.ymeth.2015.05.025 (IF: 3.645)
  • Csizmadia, T., Erdélyi, M., Smausz, T., Novák, T., & Hopp, B. (2015). Simulation of the reflectivity properties of microstructured titanium surface by ray tracing method.
    JLMN Journal of Laser Micro/Nanoengineering, doi: 10.2961/jlmn.2015.02.0001 (IF:1.008)
  • Davies, T., Kodera, N., Schierle, G. S. K., Rees, E., Erdelyi, M., Kaminski, C. F., … & Mishima, M. (2015). CYK4 promotes antiparallel microtubule bundling by optimizing MKLP1 neck conformation.
    PLoS Biology, doi: 10.1371/journal.pbio.1002121 (IF: 11.771)
  • Steuwe, C., Erdelyi, M., Szekeres, G., Csete, M., Baumberg, J. J., Mahajan, S., & Kaminski, C. F. (2015). Visualizing electromagnetic fields at the nanoscale by single molecule localization.
    Nano Letters, doi: 10.1021/acs.nanolett.5b00405 (IF: 13.592)

2014

  • Sinkó, J. (2014). Studying and correcting the optical aberrations and reconstruction errors in localization based super-resolution microscopy.
    Doctoral dissertation, University of Szeged), doi: 10.14232/phd.1935
  • Sinkó, J., Szabó, G., & Erdélyi, M. (2014). Ray tracing analysis of inclined illumination techniques.
    Optics Express, doi: 10.1364/OE.22.018940 (IF: 4.653)
  • Sinkó, J., Kákonyi, R., Rees, E., Metcalf, D., Knight, A. E., Kaminski, C. F., … & Erdélyi, M. (2014). TestSTORM: Simulator for optimizing sample labeling and image acquisition in localization based super-resolution microscopy.
    Biomed. Optics Express, doi: 10.1364/BOE.5.000778 (IF: 4.437)
  • Erdélyi Miklós, Sinkó József: Optikai pointillizmus: A lokalizációs optikai mikroszkópia.
    Fizikai Szemle 2014.05.
  • Esbjörner, E. K., Chan, F., Rees, E., Erdelyi, M., Luheshi, L. M., Bertoncini, C. W., … & Schierle, G. S. K. (2014). Direct observations of amyloid β self-assembly in live cells provide insights into differences in the kinetics of Aβ (1–40) and Aβ (1–42) aggregation.
    Chemistry & Biology, doi: 10.1016/j.chembiol.2014.03.014
  • Erdelyi, M., Simon, J., Barnard, E. A., & Kaminski, C. F. (2014). Analyzing receptor assemblies in the cell membrane using fluorescence anisotropy imaging with TIRF microscopy.
    PLoS ONE, doi: 10.1371/journal.pone.0100526
  • Dudás, L. (2014). Laterális feloldás és képminőség javítása vonalpásztázó tomográfiás optikai mikroszkópban.
    (Doctoral dissertation, University of Szeged), doi: 10.14232/phd.1935

2013

  • Rees, E. J., Erdelyi, M., Schierle, G. S. K., Knight, A., & Kaminski, C. F. (2013). Elements of image processing in localization microscopy.
    Journal of Optics, Special Issue: High Resolution Optical Imaging, doi: 10.1088/2040-8978/15/9/094012
  • Erdelyi, M., Rees, E., Metcalf, D., Schierle, G. S. K., Dudas, L., Sinko, J., … & Kaminski, C. F. (2013). Correcting chromatic offset in multicolor super-resolution localization microscopy.
    Optics Express, doi: 10.1364/OE.21.011978 (IF: 4.711)

2012

  • Kis, B. J., Sarnyai, Z., Kákonyi, R., Erdélyi, M., & Szabó, G. (2012). Single-Energy Material Decomposition Using X-Ray Path Length Estimation.
    Journal of computer assisted tomography, doi: 10.1097/RCT.0b013e318267ab96
  • Dudás, L., Gajdátsy, G., Sinkó, J., Erdélyi, M., & Szabó, G. (2012). Correction of error motion in a line-scanning tomographic optical microscope.
    Applied optics, doi: 10.1364/AO.51.006319
  • Dudás, L., Sinkó, J., Erdélyi, M., & Szabó, G. (2012). Confocal line-scanning microscope with modified illumination.
    Optics letters, doi: 10.1364/OL.37.004293
  • Rees, E. J., Erdelyi, M., Pinotsi, D., Knight, A., Metcalf, D., & Kaminski, C. F. (2012). Blind assessment of localisation microscope image resolution.
    Optical Nanoscopy, doi: 10.1186/2192-2853-1-12
  • Ahn, M., De Genst, E., Schierle, G. S. K., Erdelyi, M., Kaminski, C. F., Dobson, C. M., & Kumita, J. R. (2012). Analysis of the native structure, stability and aggregation of biotinylated human lysozyme.
    PloS one, doi: 10.1371/journal.pone.0050192
  • Erdelyi, M. & Metcalf, D. (2012) Single Molecule Pointillism – Challenges in Localization Based Super-Resolution Microscopy
    Imaging & Microscopy, ISSN: 1439-4243, 14(3) 39-41

2011

  • Kaminski Schierle, G. S., Van De Linde, S., Erdelyi, M., Esbjörner, E. K., Klein, T., Rees, E., … & Kaminski, C. F. (2011). In situ measurements of the formation and morphology of intracellular β-amyloid fibrils by super-resolution fluorescence imaging.
    Journal of the American Chemical Society, doi: 10.1021/ja201651w
  • Sinkó, J., Dudás, L., Gajdátsy, G., Erdélyi, M., & Szabó, G. (2011). Map-free line-scanning tomographic optical microscope.
    Optics letters, doi: 10.1364/OL.36.004011
  • Kákonyi, R. (2011). Vaszkuláris rendszerek modellezése
    (Doctoral dissertation, University of Szeged), doi: 10.14232/phd.601
  • Gajdátsy, G. (2011). Vonalpásztázáson alapuló tomográfiás optikai mikroszkóp elméleti és kísérleti vizsgálata
    (Doctoral dissertation, University of Szeged), doi: 10.14232/phd.618

2010

  • Kákonyi, R., Erdélyi, M., & Szabó, G. (2010). Monte Carlo simulation of the effects of anode surface roughness on x‐ray spectra.
    Medical physics, doi: 10.1118/1.3495541
  • Gajdátsy, G., Dudás, L., Erdélyi, M., & Szabó, G. (2010). Line-scanning tomographic optical microscope with isotropic transfer function.
    Journal of Optics, doi: 10.1088/2040-8978/12/11/115505

2009

  • Erdélyi, M., Lajkó, M., Kákonyi, R., & Szabó, G. (2009). Measurement of the x‐ray tube anodes’ surface profile and its effects on the x‐ray spectra.
    Medical physics, doi: 10.1118/1.3056464
  • Kovács, M., Danyi, R., Erdélyi, M., Fejérdy, P., & Dobó-Nagy, C. (2009). Distortional effect of beam-hardening artefacts on microCT: a simulation study based on an in vitro caries model.
    Oral Surgery, Oral Medicine, Oral Pathology, Oral Radiology, and Endodontology, doi: 10.1016/j.tripleo.2009.06.009
  • Kákonyi, R., Erdélyi, M., & Szabó, G. (2009). Monte Carlo analysis of energy dependent anisotropy of bremsstrahlung x‐ray spectra. Medical physics, doi: 10.1118/1.3176954
  • Patay, I., Erdélyi, M., & Gulyás, L. (2009). Developing and testing solar collectors.
    Progress in Agricultural Engineering Sciences, doi: 10.1556/Progress.5.2009.3

2008

  • Erdélyi, M., & Gajdátsy, G. (2008). Radial and azimuthal polarizer by means of a birefringent plate.
    Journal of Optics A: Pure and Applied Optics, doi: 10.1088/1464-4258/10/5/055007
  • Erdélyi, M., Bereznai, M., Gajdátsy, G., & Bor, Z. (2008). Three-dimensional focus manipulation by means of a birefringent plate. Optics Communications, doi: 10.1016/j.optcom.2008.06.024
  • Patay, I. & Erdélyi, M. (2008 May 29-30.) Determination of the Radiation Fields in Plate Mirror Concentrators for Solar Collectors
    Proceedings of Sixth Conference on Mechanical Engineering, F2, 7p Budapest

2007

  • Gajdátsy, G., & Erdélyi, M. (2007). Analysis of focus distortion based on birefringence.
    Journal of Optics A: Pure and Applied Optics, doi: 10.1088/1464-4258/9/11/003
  • Szabó, G., Erdélyi, M., Gajdátsy, G. & Dudás, L. (2007, November): Optikai mikroszkóprendszer és azzal megvalósított eljárás tárgy képének rekonstruálására
    Hungarian Patent Office, Ref No.:  P 07 00569

2006

  • Erdélyi, M., Kovács, A. P., Mecseki, K., & Szabó, G. (2006, July). Control of Third Order Dispersion of Ultrashort Laser Pulses.
    In International Conference on Ultrafast Phenomena (p. TuG20). Optical Society of America, doi: 10.1364/UP.2006.TuG20
  • Erdélyi, M., & Bor, Z. (2006). Radial and azimuthal polarizers.
    Journal of Optics A: Pure and Applied Optics, doi: 10.1088/1464-4258/8/9/005

2005

2004

  • Erdélyi, M., Szörényi, T., Hopp, B., Szabó, G.,& Bor Zs. (2004). Lézerek a félvezető-gyártásban és a mikroelektronikai technológiában
    A magyar elektronikai ipar – Múlt és jelen, Szerkesztő: Dr. Mojzes Imre, Műegyetemi Kiadó, 9. fejezet, 151-168, ISBN: 963-420-827-4

2002

  • Richter, D., Erdelyi, M., Curl, R. F., Tittel, F. K., Oppenheimer, C., Duffell, H. J., & Burton, M. (2002). Field measurements of volcanic gases using tunable diode laser based mid-infrared and Fourier transform infrared spectrometers.
    Optics and Lasers in Engineering, doi: 10.1016/S0143-8166(01)00094-X
  • Bozóki, Z., Mohácsi, Á., Szabó, G., Bor, Z., Erdélyi, M., Chen, W., & Tittel, F. K. (2002). Near-infrared diode laser based spectroscopic detection of ammonia: A comparative study of photoacoustic and direct optical absorption methods.
    Applied spectroscopy, doi: 10.1366/000370202760077658
  • Erdélyi, M., Richter, D., & Tittel, F. K. (2002). 13 CO 2/12 CO 2 isotopic ratio measurements using a difference frequency-based sensor operating at 4.35 μm.
    Applied Physics B, doi: 10.1007/s00340-002-0960-2

2001

  • Rehle, D., Leleux, D., Erdelyi, M., Tittel, F., Fraser, M., & Friedfeld, S. (2001). Ambient formaldehyde detection with a laser spectrometer based on difference-frequency generation in PPLN.
    Applied Physics B, doi: 10.1007/s003400100549
  • Richter, D., Erdelyi, M., & Tittel, F. K. (2001, January). Ultra-compact mid-IR spectroscopic source based on frequency converted Yb-Er/Yb fiber amplified cw diode lasers.
    In Advanced Solid State Lasers (p. MB10). Optical Society of America., doi: 10.1364/ASSL.2001.MB10

2000

  • Erdélyi, M., Bor, Z., Wilson, W. L., Smayling, M. C., & Tittel, F. K. (2000). Enhanced optical microlithography with a Fabry–Perot-based spatial filtering technique.
    Applied optics, doi: 10.1364/AO.39.001121

1999

  • Erdelyi, M., Bor, Z., Wilson, W. L., Smayling, M. C., & Tittel, F. K. (1999). Simulation of coherent multiple imaging by means of pupil-plane filtering in optical microlithography.
    JOSA A, doi: 10.1364/JOSAA.16.001909
  • Erdelyi, M., Kroyan, A., Osvay, K., Bor, Z., Wilson Jr, W. L., Smayling, M. C., & Tittel, F. K. (1999, July). Coherent multiple imaging by means of pupil plane filtering.
    In Optical Microlithography XII (Vol. 3679, pp. 762-771). International Society for Optics and Photonics., doi: 10.1117/12.354393
  • Erdelyi, M., Osvay, K., Bor, Z., Wilson Jr, W. L., Smayling, M. C., & Tittel, F. K. (1999, April). Enhanced microlithography using coherent multiple imaging.
    In Lithography for Semiconductor Manufacturing (Vol. 3741, pp. 180-188). International Society for Optics and Photonics., doi: 10.1117/12.346891

1998

  • Erdélyi, M., Hilbert, M., & Bor, Z. (1998). Anomalous dispersion of dye solutions observed in a prismatic cuvette.
    American Journal of Physics, doi: 10.1119/1.18958
  • Horvath, Z. L., Erdelyi, M., Szabo, G., Bor, Z., Tittel, F. K., & Cavallaro, J. R. (1998, July). Generation of zero-order Bessel beams with Fabry-Perot interferometer.
    In Second GR-I International Conference on New Laser Technologies and Applications (Vol. 3423, pp. 135-139). International Society for Optics and Photonics., doi: 10.1117/12.316568
  • Tittel, F. K., Erdelyi, M., Horvath, Z. L., Kroyan, A., Wilson Jr, W. L., Smayling, M. C., … & Szabo, G. (1998, June). Present and future trends in excimer-laser-based microlithography.
    In International Conference on Atomic and Molecular Pulsed Lasers II (Vol. 3403, pp. 248-253). International Society for Optics and Photonics., doi: 10.1117/12.311947
  • Erdelyi, M., Bor, Z., Szabo, G., & Tittel, F. K. (1998, June). Enhanced microlithography using coated objectives and image duplication.
    In Optical Microlithography XI (Vol. 3334, pp. 579-589). International Society for Optics and Photonics., doi: 10.1117/12.310787

1997

  • Horvath, Z. L., Erdelyi, M., Szabo, G., Bor, Z., Tittel, F. K., & Cavallaro, J. R. (1997). Generation of nearly nondiffracting Bessel beams with a Fabry–Perot interferometer.
    JOSA A, doi: 10.1364/JOSAA.14.003009
  • Erdelyi, M., Horvath, Z. L., Szabo, G., Bor, Z., Tittel, F. K., Cavallaro, J. R., & Smayling, M. C. (1997). Generation of diffraction-free beams for applications in optical microlithography.
    Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures Processing, Measurement, and Phenomena, doi: 10.1116/1.589280
  • Erdelyi, M., Horvath, Z. L., Bor, Z., Szabo, G., Cavallaro, J. R., Smayling, M. C., & Tittel, F. K. (1997, July). Optical microlithography with nearly nondiffracting beams.
    In Optical Microlithography X (Vol. 3051, pp. 959-966). International Society for Optics and Photonics., doi: 10.1117/12.276053
  • Tittel, F. K., Cavallaro, J. R., Erdelyi, M., Szabo, G., Bor, Z., & Smayling, M. C. (1997, April). High resolution microlithography applications of deep-UV excimer lasers.
    In XI International Symposium on Gas Flow and Chemical Lasers and High-Power Laser Conference (Vol. 3092, pp. 462-466). International Society for Optics and Photonics., doi: 10.1117/12.270108
  • Bor, Zs., Csete, M., Erdelyi, M., Geretovszky, Zs., Heszler, P., Hopp, B., Horvath, Z., Kantor, Z., Revesz, B., Szabo, G., Szorenyi, T., & Toth Zs. Surface structuring by laser-based techniques, Nanotechnology, a dedicated tool for the future, Eds.: I. Mojzes and B. Kovács, ISBN 963-8531657, MIL-ORG. Ltd, NETI, Budapest, 67-105 (1997).

1996

  • Sengupta, C., Erdelyi, M., Bor, Z., Cavallaro, J. R., Smayling, M. C., Szabo, G., … & Wilson Jr, W. L. (1996, June). Integrated CAD framework linking VLSI layout editors and process simulators.
    In Optical Microlithography IX (Vol. 2726, pp. 244-252). International Society for Optics and Photonics., doi: 10.1117/12.240955
  • Erdelyi, M., Bor, Z., Szabo, G., Cavallaro, J. R., Smayling, M. C., Tittel, F. K., & Wilson Jr, W. L. (1996, June). Sub-quarter-micrometer contact hole fabrication using annular illumination.
    In Optical Microlithography IX (Vol. 2726, pp. 88-93). International Society for Optics and Photonics., doi: 10.1117/12.240953

1995

  • Erdelyi, M., Sengupta, C., Bor, Z., Szabo, G., Cavallaro, J. R., Smayling, M. C., & Wilson, W. L. (1995, July). Ultrahigh Resolution Lithography with Excimer Lasers.
    In NATO Workshop on Gas Lasers-Recent Developments and Future Prospects (pp. 263-272). Kluwer Academic Publishers., url: https://hdl.handle.net/1911/64288
  • Erdélyi, M., Bor, Z., Cavallaro, J. R., Szabó, G., Wilson, W. L., Sengupta, C., & Smayling, M. C. (1995). Enhanced microlithography using combined phase shifting and off-axis illumination.
    Japanese journal of applied physics, doi: 10.1143/JJAP.34.L1629
  • Erdelyi, M., Sengupta, C., Bor, Z., Cavallaro, J. R., Kido, M., Smayling, M. C., … & Szabo, G. (1995, May). New interferometric phase-shifting technique for sub-half-micron laser microlithography.
    In Optical/Laser Microlithography VIII (Vol. 2440, pp. 827-837). International Society for Optics and Photonics., doi: 10.1117/12.209308
  • Bor, Z., Cavallaro, J. R., Erdelyi, M., Kido, M., Sengupta, C., Smayling, M. C., … & Wilson Jr, W. L. (1995, April). New phase-shifting technique for deep UV excimer laser-based lithography.
    In UV and Visible Lasers and Laser Crystal Growth (Vol. 2380, pp. 195-202). International Society for Optics and Photonics. doi: 10.1117/12.206950