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Publications

 This page include only English publications, while publications in Russian are listed separately. All lists are in reverse chronological and numerical order, bold font in author list is used to highlight my contribution as the first or/and the corresponding (presenting) author. Citation metrics for all publications (including many conference papers/abstracts) can be found at Google Scholar Citations. More bibliographic details can be found in my Zotero library.

 

Books

1. Yurkin M.A. Discrete dipole simulations of light scattering by blood cells, PhD thesis, University of Amsterdam, 2007. (PDF, slides)

Book chapters

4. Yurkin M.A. Computational Approaches for Plasmonics, in Handbook of Molecular Plasmonics, ed. Della Sala F. and D’Agostino S., Pan Stanford Publishing, Singapore, pp.83–135 (2013). (PDF) Erratum: self-published (PDF)

3. Maltsev V.P., Hoekstra A.G., and Yurkin M.A. Optics of white blood cells: Optical models, simulations, and experiments, in Advanced Optical Flow Cytometry: Methods and Disease Diagnoses, ed. Tuchin V.V., Wiley-VCH, Weinheim, pp.63–93 (2011). (PDF)

2. Tarasov P.A., Yurkin M.A., Avrorov P.A., Semyanov K.A., Hoekstra A.G., and Maltsev V.P. Optics of erythrocytes, in Optics of Biological Particles, ed. Hoekstra A.G., Maltsev V.P., and Videen G., Springer, Dordrecht, pp.243–259 (2007). (PDF)

1. Semyanov K.A., Zharinov A.E., Tarasov P.A., Yurkin M.A., Skribunov I.G., van Bockstaele D.R., and Maltsev V.P. Optics of leucocytes, in Optics of Biological Particles, ed. Hoekstra A.G., Maltsev V.P., and Videen G., Springer, Dordrecht, pp.269–280 (2007). (PDF)

Peer-reviewed journal papers

§ Citation metrics for the following papers can be found at my my Publons profile (Web of Science) and Scopus profile. Blog-style (somewhat layman) description of many papers is available at LiveJournal.

68. Melnikov A.R., Samsonenko A.A., Getmanov Y.V., Shevchenko O.A., Shevchenko D.A., Stepanov A.A., Fedin M.V., Yurkin M.A., and Veber S.L. Broadband multimodal THz waveguides for efficient transfer of high-power radiation in space-confined conditions, Opt. Laser Technol. 143, 107375 (2021). (PDF, supplementary)

67. Moskalensky A.E. and Yurkin M.A. A point electric dipole: From basic optical properties to the fluctuation-dissipation theorem, Rev. Phys. 6, 100047 (2021). (PDF)

66. Feng X., Wang J., Teng S., Xu X., Zhu B., Wang J., Zhu X., Yurkin M.A., and Liu C. Can light absorption of black carbon still be enhanced by mixing with absorbing materials? Atmos. Environ. 253, 118358 (2021). (PDF)

65. Romanov A.V. and Yurkin M.A. Single-particle characterization by elastic light scattering, Laser & Photon. Rev. 15, 2000368 (2021). (PDF)

64. Penttilä A., Markkanen J., Väisänen T., Räbinä J., Yurkin M.A., and Muinonen K. How much is enough? The convergence of finite sample scattering properties to those of infinite media, J. Quant. Spectrosc. Radiat. Transfer 262, 107524 (2021). (PDF)

63. Mishchenko M.I. and Yurkin M.A. Co- and counter-propagating wave effects in an absorbing medium, J. Quant. Spectrosc. Radiat. Transfer 242, 106688 (2020). (PDF)

62. Zhu Y., Liu C., and Yurkin M.A. Reproducing the morphology-dependent resonances of spheres with the discrete dipole approximation, Opt. Express 27, 22827–22845 (2019). (PDF)

61. Mishchenko M.I., Yurkin M.A., and Cairns B. Scattering of a damped inhomogeneous plane wave by a particle in a weakly absorbing medium, OSA Continuum 2, 2362–2368 (2019). (PDF)

60. Romanov A.V., Konokhova A.I., Yastrebova E.S., Gilev K.V., Strokotov D.I., Maltsev V.P., and Yurkin M.A. Sensitive detection and estimation of particle non-sphericity from the complex Fourier spectrum of its light-scattering profile, J. Quant. Spectrosc. Radiat. Transfer 235, 317–331 (2019). (PDF)

59. Moskalensky A.E. and Yurkin M.A. Energy budget and optical theorem for scattering of source-induced fields, Phys. Rev. A 99, 053824 (2019). (PDF)

58. Mishchenko M.I. and Yurkin M.A. Additivity of integral optical cross sections for a fixed tenuous multi-particle group, Opt. Lett. 44, 419–422 (2019). (PDF)

57. Liu C., Teng S., Zhu Y., Yurkin M.A., and Yung Y.L. Performance of the discrete dipole approximation for optical properties of black carbon aggregates, J. Quant. Spectrosc. Radiat. Transfer 221, 98–109 (2018). (PDF)

56. Khalo I.V., Kozyreva V.S., Vakhrushev R.V., Patlai D.S., Shilova A.N., Karpenko A.A., Yurkin M.A., Moskalensky A.E., Strokotov D.I., Maltsev V.P., and Chernyshev A.V. Calibration-free quantitative immunoassay by flow cytometry: Theoretical consideration and practical implementation for IgG antibody binding to CD14 receptors on human leukocytes, Cytometry A 93, 695–705 (2018). (PDF)

55. Yurkin M.A. and Mishchenko M.I. Addendum to “Impressed sources and fields in the volume-integral-equation formulation of electromagnetic scattering by a finite object: A tutorial” [J. Quant. Spectrosc. Radiat. Transfer 214 (2018) 158–167], J. Quant. Spectrosc. Radiat. Transfer 219, 105–107 (2018). (PDF)

54. Mishchenko M.I., Dlugach J.M., Lock J.A., and Yurkin M.A. Far-field Lorenz–Mie scattering in an absorbing host medium. II: Improved stability of the numerical algorithm, J. Quant. Spectrosc. Radiat. Transfer 217, 274–277 (2018). (PDF)

53. Chernova D.N., Konokhova A.I., Novikova O.A., Yurkin M.A., Strokotov D.I., Karpenko A.A., Chernyshev A.V., and Maltsev V.P. Chylomicrons against light scattering: The battle for characterization, J. Biophoton.11, e201700381 (2018). (PDF)

52. Khalo I.V., Konokhova A.I., Orlova D.Y., Trusov K.V., Yurkin M.A., Bartova E., Kozubek S., Maltsev V.P., and Chernyshev A.V. Nuclear apoptotic volume decrease in individual cells: confocal microscopy imaging and kinetic modeling, J. Theor. Biol. 454, 60–69 (2018). (PDF)

51. Mishchenko M.I. and Yurkin M.A. Impressed sources and fields in the volume-integral-equation formulation of electromagnetic scattering by a finite object: A tutorial, J. Quant. Spectrosc. Radiat. Transfer 214, 158–167 (2018). (PDF)

50. Yurkin M.A. How a phase image of a cell with nucleus refractive index smaller than that of the cytoplasm should look like? A Comment on two papers by Steelman et al. and Schürmann et al., J. Biophotonics 11, e201800033 (2018). (PDF)

49. Yurkin M.A. and Mishchenko M.I. Volume integral equation for electromagnetic scattering: Rigorous derivation and analysis for a set of multilayered particles with piecewise-smooth boundaries in a passive host medium, Phys. Rev. A 97, 043824 (2018). (PDF)

48. Moskalensky A.E., Yurkin M.A., Muliukov A.R., Litvinenko A.L., Nekrasov V.M., Chernyshev A.V., and Maltsev V.P. Method for the simulation of blood platelet shape and its evolution during activation, PLoS Comput. Biol. 14, e1005899 (2018). (PDF, featured on issue cover)

47. Gilev K.V., Yastrebova E.S., Strokotov D.I., Yurkin M.A., Karmadonova N.A., Chernyshev A.V., Lomivorotov V.V., and Maltsev V.P. Advanced consumable-free morphological analysis of intact red blood cells by a compact scanning flow cytometer, Cytometry A 91, 867–873 (2017). (PDF)

46. Romanov A.V., Konokhova A.I., Yastrebova E.S., Gilev K.V., Strokotov D.I., Chernyshev A.V., Maltsev V.P., and Yurkin M.A. Spectral solution of the inverse Mie problem, J. Quant. Spectrosc. Radiat. Transfer 200, 280–294 (2017). (PDF)

45. Mishchenko M.I. and Yurkin M.A. On the concept of random orientation in far-field electromagnetic scattering by nonspherical particles, Opt. Lett. 42, 494–497 (2017). (PDF)

44. Polshchitsin A.A., Nekrasov V.M., Zakovryashin V.S., Yakovleva G.E., Maltsev V.P., Yurkin M.A., and Chernyshev A.V. Kinetic turbidimetry of patchy colloids aggregation: latex particles immunoagglutination, Coll. Surf. A. 516, 72–79 (2017). (PDF)

43. Litvinenko A.L., Moskalensky A.E., Karmadonova N.A., Nekrasov V.M., Strokotov D.I., Konokhova A.I., Yurkin M.A., Pokushalov E.A., Chernyshev A.V., and Maltsev V.P. Fluorescence-free flow cytometry for measurement of shape index distribution of resting, partially activated, and fully activated platelets, Cytometry A 89, 1010–1016 (2016). (PDF)

42. Konokhova A.I., Chernova D.N., Strokotov D.I., Karpenko A.A., Chernyshev A.V., Maltsev V.P., and Yurkin M.A. Light-scattering gating and characterization of plasma microparticles, J. Biomed. Opt. 21, 115003 (2016). (PDF)

41. Mishchenko M.I., Dlugach J.M., Yurkin M.A., Bi L., Cairns B., Liu L., Panetta R.L., Travis L.D., Yang P., and Zakharova N.T. First-principles modeling of electromagnetic scattering by discrete and discretely heterogeneous random media, Phys. Rep. 632, 1–75 (2016). (PDF)

40. Gilev K.V., Yurkin M.A., Chernyshova E.S., Strokotov D.I., Chernyshev A.V., and Maltsev V.P. Mature red blood cells: from optical model to inverse light-scattering problem, Biomed. Opt. Express 7, 1305–1310 (2016). (PDF)

39. Konokhova A.I., Chernova D.N., Moskalensky A.E., Strokotov D.I., Yurkin M.A., Chernyshev A.V., and Maltsev V.P. Super-resolved calibration-free flow cytometric characterization of platelets and cell-derived microparticles in platelet-rich plasma, Cytometry A 89, 159–168 (2016). (PDF)

38. Chernyshova E.S., Zaikina Y.S., Tsvetovskaya G.A., Strokotov D.I., Yurkin M.A., Serebrennikova E.S., Volkov L., Maltsev V.P., and Chernyshev A.V. Influence of magnesium sulfate on HCO3/Cl transmembrane exchange rate in human erythrocytes, J. Theor. Biol. 393, 194–202 (2016). (PDF)

37. Yurkin M.A. and Huntemann M. Rigorous and fast discrete dipole approximation for particles near a plane interface, J. Phys. Chem. C 119, 29088–29094 (2015). (PDF)

36. Kim K.-H. and Yurkin M.A. Time-domain discrete-dipole approximation for simulation of temporal response of plasmonic nanoparticles, Opt. Express 23, 15555–15564 (2015). (PDF)

35. Moskalensky A.E., Chernyshev A.V., Yurkin M.A., Nekrasov V.M., Polshchitsin A.A., Parks D.R., Moore W.A., Filatenkov A., Maltsev V.P., and Orlova D.Y. Dynamic quantification of antigen molecules with flow cytometry, J. Immunol. Meth. 418, 66–74 (2015). (PDF) Erratum: 427, 138 (2015). (PDF) Reprint: 427, 139–147 (2015). (PDF)

34. Smunev D.A., Chaumet P.C., and Yurkin M.A. Rectangular dipoles in the discrete dipole approximation, J. Quant. Spectrosc. Radiat. Transfer 156, 67–79 (2015). (PDF) Erratum: 171, 84 (2016). (PDF)

33. Yurkin M.A. Comment on “Rapid and efficient prediction of optical extinction coefficients for gold nanospheres and gold nanorods,” J. Phys. Chem. C 118, 21738–21739 (2014). (PDF)

32. Konokhova A.I., Rodionov A.A., Gilev K.V., Mikhaelis I.M., Strokotov D.I., Moskalensky A.E., Yurkin M.A., Chernyshev A.V., and Maltsev V.P. Enhanced characterisation of milk fat globules by their size, shape and refractive index with scanning flow cytometry, Int. Dairy J. 39, 316–323 (2014). (PDF)

31. Nekrasov V.M., Polshchitsin A.A., Yurkin M.A., Yakovleva G.E., Maltsev V.P., and Chernyshev A.V. Brownian aggregation rate of colloid particles with several active sites, J. Chem. Phys. 141, 064309 (2014). (PDF)

30. Moskalensky A.E., Strokotov D.I., Chernyshev A.V., Maltsev V.P., and Yurkin M.A. Additivity of light-scattering patterns of aggregated biological particles, J. Biomed. Opt. 19, 085004 (2014). (PDF)

29. Zhukas L.A., Veber S.L., Mikenas T.B., Yurkin M.A., Karpova E.V., Maltsev V.P., Mamatyuk V.I., Echevskaya L.G., Bagryanskaya E.G., and Zakharov V.A. Size-dependent optical properties of polyethylene powders in far-IR region: On the way to universal matrix, J. Quant. Spectrosc. Radiat. Transfer 147, 1–7 (2014). (PDF, supplementary)

28. Podowitz D.I., Liu C., Yang P., and Yurkin M.A. Comparison of the pseudo-spectral time domain method and the discrete dipole approximation for light scattering by ice spheres, J. Quant. Spectrosc. Radiat. Transfer 146, 402–409 (2014). (PDF)

27. Yurkin M.A. Comment on “Plasmonic nanoparticle monomers and dimers: from nanoantennas to chiral metamaterials” by Chigrin et al. in Appl Phys B (2011) 105:81–97, Appl. Phys. B 114, 601–602 (2014). (PDF)

26. Yurkin M.A. Symmetry relations for the Mueller scattering matrix integrated over the azimuthal angle, J. Quant. Spectrosc. Radiat. Transfer 131, 82–87 (2013). (PDF)

25. Gilev K.V., Yurkin M.A., Dyatlov G.V., Chernyshev A.V., and Maltsev V.P. An optimization method for solving the inverse Mie problem based on adaptive algorithm for construction of interpolating database, J. Quant. Spectrosc. Radiat. Transfer 131, 202–214 (2013). (PDF)

24. Konokhova A.I., Gelash A.A., Yurkin M.A., Chernyshev A.V., and Maltsev V.P. High-precision characterization of individual E. coli cell morphology by scanning flow cytometry, Cytometry A 83, 568–575 (2013). (PDF)

23. Yurkin M.A. and Kahnert M. Light scattering by a cube: accuracy limits of the discrete dipole approximation and the T-matrix method, J. Quant. Spectrosc. Radiat. Transfer 123, 176–183 (2013). (PDF)

22. Moskalensky A.E., Yurkin M.A., Konokhova A.I., Strokotov D.I., Nekrasov V.M., Chernyshev A.V., Tsvetovskaya G.A., Chikova E.D., and Maltsev V.P. Accurate measurement of volume and shape of resting and activated blood platelets from light scattering, J. Biomed. Opt. 18, 017001 (2013). (PDF)

21. Schmidt K., Yurkin M.A., and Kahnert M. A case study on the reciprocity in light scattering computations, Opt. Express 20, 23253–23274 (2012). (PDF)

20. Liu C., Bi L., Panetta R.L., Yang P., and Yurkin M.A. Comparison between the pseudo-spectral time domain method and the discrete dipole approximation for light scattering simulations, Opt. Express 20, 16763–16776 (2012). (PDF)

19. Konokhova A.I., Yurkin M.A., Moskalensky A.E., Chernyshev A.V., Tsvetovskaya G.A., Chikova E.D., and Maltsev V.P. Light-scattering flow cytometry for identification and characterization of blood microparticles, J. Biomed. Opt. 17, 057006 (2012). (PDF)

18. Dyatlov G.V., Gilev K.V., Yurkin M.A., and Maltsev V.P. An optimization method with precomputed starting points for solving the inverse Mie problem, Inv. Probl. 28, 045012 (2012). (PDF)

17. Yurkin M.A. and Hoekstra A.G. The discrete-dipole-approximation code ADDA: capabilities and known limitations, J. Quant. Spectrosc. Radiat. Transfer 112, 2234–2247 (2011). (PDF) – Highly Cited Paper

16. Yurkin M.A., Min M., and Hoekstra A.G. Application of the discrete dipole approximation to very large refractive indices: Filtered coupled dipoles revived, Phys. Rev. E 82, 036703 (2010). (PDF)

15. Gilev K.V., Eremina E., Yurkin M.A., and Maltsev V.P. Comparison of the discrete dipole approximation and the discrete source method for simulation of light scattering by red blood cells, Opt. Express 18, 5681–5690 (2010). (PDF)

14. Yurkin M.A., de Kanter D., and Hoekstra A.G. Accuracy of the discrete dipole approximation for simulation of optical properties of gold nanoparticles, J. Nanophoton. 4, 041585 (2010). (PDF)

13. Strokotov D.I., Yurkin M.A., Gilev K.V., van Bockstaele D.R., Hoekstra A.G., Rubtsov N.B., and Maltsev V.P. Is there a difference between T- and B-lymphocyte morphology? J. Biomed. Opt. 14, 064036 (2009). (PDF)

12. Orlova D.Y., Yurkin M.A., Hoekstra A.G., and Maltsev V.P. Light scattering by neutrophils: model, simulation, and experiment, J. Biomed. Opt. 13, 054057 (2008). (PDF)

11. Yurkin M.A., Semyanov K.A., Maltsev V.P., and Hoekstra A.G. Discrimination of granulocyte subtypes from light scattering: theoretical analysis using a granulated sphere model, Opt. Express 15, 16561–16580 (2007). (PDF)

10. Yurkin M.A., Hoekstra A.G., Brock R.S., and Lu J.Q. Systematic comparison of the discrete dipole approximation and the finite difference time domain method for large dielectric scatterers, Opt. Express 15, 17902–17911 (2007). (PDF)

9. Yurkin M.A., Maltsev V.P., and Hoekstra A.G. The discrete dipole approximation for simulation of light scattering by particles much larger than the wavelength, J. Quant. Spectr. Radiat. Transf. 106, 546–557 (2007). (PDF)

8. Yurkin M.A. and Hoekstra A.G. The discrete dipole approximation: an overview and recent developments, J. Quant. Spectr. Radiat. Transf. 106, 558–589 (2007). (PDF) – Highly Cited Paper Erratum: 171, 82–83 (2016). (PDF)

7. Penttila A., Zubko E., Lumme K., Muinonen K., Yurkin M.A., Draine B.T., Rahola J., Hoekstra A.G., and Shkuratov Y. Comparison between discrete dipole implementations and exact techniques, J. Quant. Spectrosc. Radiat. Transfer 106, 417–436 (2007). (PDF)

6. Yurkin M.A., Maltsev V.P., and Hoekstra A.G. Convergence of the discrete dipole approximation. I. Theoretical analysis, J. Opt. Soc. Am. A 23, 2578–2591 (2006). (PDF) Erratum: 32, 2407–2408 (2015). (PDF)

5. Yurkin M.A., Maltsev V.P., and Hoekstra A.G. Convergence of the discrete dipole approximation. II. An extrapolation technique to increase the accuracy, J. Opt. Soc. Am. A 23, 2592–2601 (2006). (PDF)

4. Kolesnikova I.V., Potapov S.V., Yurkin M.A., Hoekstra A.G., Maltsev V.P., and Semyanov K.A. Determination of volume, shape and refractive index of individual blood platelets, J. Quant. Spectrosc. Radiat. Transfer 102, 37–45 (2006). (PDF)

3. Min M., Hovenier J.W., Dominik C., de Koter A., and Yurkin M.A. Absorption and scattering properties of arbitrary shaped particles in the Rayleigh domain: A rapid computational method and a theoretical foundation for the statistical approach, J. Quant. Spectrosc. Radiat. Transfer 97, 161–180 (2006). (PDF)

2. Yurkin M.A., Semyanov K.A., Tarasov P.A., Chernyshev A.V., Hoekstra A.G., and Maltsev V.P. Experimental and theoretical study of light scattering by individual mature red blood cells with scanning flow cytometry and discrete dipole approximation, Appl. Opt. 44, 5249–5256 (2005). (PDF)

1. Surovtsev I.V., Yurkin M.A., Shvalov A.N., Nekrasov V.M., Sivolobova G.F., Grajdantseva A.A., Maltsev V.P., and Chernyshev A.V. Kinetics of the initial stage of immunoagglutination studied with the scanning flow cytometer, Colloid. Surf. B 32, 245–255 (2003). (PDF)

Conference abstracts and proceedings

§ For some abstracts (conference papers/proceedings), links to slides are given. The latter can also be browsed as a single list at ResarchGate (choose there "Data" in the menu to the left). Moreover, a separate list includes presentations/lectures without published abstracts. Those are in pdf format. Contact me, if you prefer PowerPoint format (e.g., to reuse slides).

112. Yurkin M.A. and Moskalensky A.E. Open-source implementation of the discrete-dipole approximation for a scatterer in an absorbing host medium, VI International Conference on Metamaterials and Nanophotonics (METANANO 2021), 13–18 September 2021, Online, J. Phys.: Conf. Ser. 2015, 012167 (paper, poster)

111. Romanov A.V. and Yurkin M.A. Retrieving the refractive index of a sphere from the phase spectrum of its light-scattering profile, VI International Conference on Metamaterials and Nanophotonics (METANANO 2021), 13–18 September 2021, Online, J. Phys.: Conf. Ser. 2015, 012125 (paper, video)

110. Kichigin A.A. and Yurkin M.A. Electron-energy-loss spectroscopy and cathodoluminescence for particles inside substrate, VI International Conference on Metamaterials and Nanophotonics (METANANO 2021), 13–18 September 2021, Online, J. Phys.: Conf. Ser. 2015, 012064 (paper, video)

109. Glukhova S.A. and Yurkin M.A. Scattering of generalized Bessel beams simulated with the discrete dipole approximation, VI International Conference on Metamaterials and Nanophotonics (METANANO 2021), 13–18 September 2021, Online, J. Phys.: Conf. Ser. 2015, 012046 (paper, video)

108. Kichigin A.A. and Yurkin M.A. Simulating nanoparticles interaction with an electron beam using the discrete dipole approximation, The 19th Electromagnetic and Light Scattering Conference, 12–16 July 2021, Online, p. 119. (abstract, video)

107. Inzhevatkin K.G. and Yurkin M.A. Optimization of the discrete-dipole approximation for large optically soft particles, The 19th Electromagnetic and Light Scattering Conference, 12–16 July 2021, Online, p. 67. (abstract, video)

106. Romanov A.V. and Yurkin M.A. Characterization of a single sphere using amplitude and phase Fourier spectrum of its light-scattering profile, The 19th Electromagnetic and Light Scattering Conference, 12–16 July 2021, Online, p. 64. (abstract, video)

105. Glukhova S.A. and Yurkin M.A. Scattering simulation of generalized Bessel beams by arbitrary particles, The 19th Electromagnetic and Light Scattering Conference, 12–16 July 2021, Online, p. 57. (abstract, video)

104. Moskalensky A.E. and Yurkin M.A. Open-source implementation of the DDA for light scattering in an absorbing medium, The 19th Electromagnetic and Light Scattering Conference, 12–16 July 2021, Online, p. 48. (abstract, video)

103. Penttilä A., Markkanen J., Väisänen T., Räbinä J., Yurkin M.A., and Muinonen K. How much is enough? The convergence of finite sample scattering properties to those of infinite media, The 19th Electromagnetic and Light Scattering Conference, 12–16 July 2021, Online, p. 41. (abstract, video)

102. Yurkin M.A. The discrete dipole approximation: from Maxwell’s equations to practical applications, The 19th Electromagnetic and Light Scattering Conference, 12–16 July 2021, Online, p. 16 (invited). (abstract, slides, video)

101. Yurkin M.A. On the feasibility of measuring extinction of single particles, The 19th Electromagnetic and Light Scattering Conference, 12–16 July 2021, Online, p. 8 (invited). (abstract, slides, video)

100. Yurkin M.A., Smunev D.A., Glukhova S.A., Kichigin A.A., Moskalensky A.E., and Inzhevatkin K.G. Capabilities of the ADDA code for electromagnetic simulations, Radiation and Scattering of Electromagnetic Waves (RSEMW 2021), 28 June – 2 July 2021, Divnomorskoe, Russia, pp. 111–114. (paper, slides in English and Russian)

99. Yurkin M.A. and Moskalensky A.E. The fluctuation-dissipation theorem for a point dipole, Bremen Zoom Workshop on Light Scattering 2021, 22–23 March 2021, Online, pp. 78–81. (paper, slides)

98. Kichigin A.A. and Yurkin M.A. Simulating nanoparticles interaction with electrons, Bremen Zoom Workshop on Light Scattering 2021, 22–23 March 2021, Online, pp. 62–65. (paper)

97. Inzhevatkin K.G. and Yurkin M.A. Optimization of the discrete-dipole approximation for large optically soft particles using the modified Wentzel-Kramers-Brillouin approximation, Bremen Zoom Workshop on Light Scattering 2021, 22–23 March 2021, Online, pp. 55–57. (paper)

96. Glukhova S.A. and Yurkin M.A. Implementation of scattering of generalized Bessel beams in the framework of the discrete dipole approximation, Bremen Zoom Workshop on Light Scattering 2021, 22–23 March 2021, Online, pp. 43–44. (paper)

95. Yurkin M.A. Discrete dipole approximation for electromagnetic scattering simulations, Mathematical models and methods in electromagnetics for particles simulations, characterization and synthesis (international section of Lomonosov Readings), 16–17 December 2020, Online, pp. 24–25. (abstract, slides)

94. Yurkin M.A. Characterization of single particles from light-scattering profiles using parametric shape models, Mathematical models and methods in electromagnetics for particles simulations, characterization and synthesis (international section of Lomonosov Readings), 16–17 December 2020, Online, pp. 23–24. (abstract, slides)

93. Yurkin M.A. and Moskalensky A.E. Polarizability and fluctuation-dissipation theorem for a point dipole: Does shape matter?, V International Conference on Metamaterials and Nanophotonics (METANANO 2020), 14–18 September 2020, Online. AIP Conf. Proc. 2300, 020136. (paper, slides, video)

92. Romanov A.V. and Yurkin M.A. Behavior of the Lorenz-Mie poles in the complex space of sphere parameters, V International Conference on Metamaterials and Nanophotonics (METANANO 2020), 14–18 September 2020, Online. AIP Conf. Proc. 2300, 020104. (paper, video)

91. Kichigin A.A. and Yurkin M.A. Electron energy loss spectroscopy in the framework of the discrete dipole approximation, V International Conference on Metamaterials and Nanophotonics (METANANO 2020), 14–18 September 2020, Online. AIP Conf. Proc. 2300, 020053. (paper, video)

90. Glukhova S.A. and Yurkin M.A. Implementation of various Bessel beams in the framework of the discrete dipole approximation, V International Conference on Metamaterials and Nanophotonics (METANANO 2020), 14–18 September 2020, Online. AIP Conf. Proc. 2300, 020037. (paper, video)

89. Yurkin M.A., Smunev D.A., Akhmetyanova A.E., and Glukhova S.A. Capabilities of ADDA code for nanophotonics, IV International Conference on Metamaterials and Nanophotonics (METANANO 2019), 15–19 July 2019, St. Petersburg, Russia (invited). J. Phys.: Conf. Ser. 1461, 012197 (2020). (paper, slides)

88. Smunev D.A. and Yurkin M.A. Simulating optical properties of extremely oblate inhomogeneous particles with the discrete dipole approximation, IV International Conference on Metamaterials and Nanophotonics (METANANO 2019), 15–19 July 2019, St. Petersburg, Russia. J. Phys.: Conf. Ser. 1461, 012198 (2020). (paper, slides)

87. Zhu Y., Liu C., and Yurkin M.A. How can the discrete dipole approximation reproduce morphology-dependent resonances of spheres? The 18th Electromagnetic and Light Scattering Conference, 10–14 June 2019, Hangzhou, China. (abstract)

86. Yurkin M.A. and Moskalensky A.E. Analysis of energy budget for scattering of fields induced by nearby sources, The 18th Electromagnetic and Light Scattering Conference, 10–14 June 2019, Hangzhou, China, p. 160. (abstract, slides)

85. Smunev D.A. and Yurkin M.A. Simulations of scattering by extremely oblate particles with the discrete dipole approximation, The 18th Electromagnetic and Light Scattering Conference, 10–14 June 2019, Hangzhou, China, p. 129. (abstract)

84. Romanov A.V., Maltsev V.P., and Yurkin M.A. Assessing particle non-sphericity from the Fourier spectrum of its light-scattering pattern, The 18th Electromagnetic and Light Scattering Conference, 10–14 June 2019, Hangzhou, China, p. 117. (abstract)

83. Glukhova S.A. and Yurkin M.A. Scattering of Bessel beams in the framework of the discrete dipole approximation, The 18th Electromagnetic and Light Scattering Conference, 10–14 June 2019, Hangzhou, China, p. 60. (abstract)

82. Akhmetyanova A.E. and Yurkin M.A. Optimization of the discrete dipole approximation applied to particles on a plane substrate, The 18th Electromagnetic and Light Scattering Conference, 10–14 June 2019, Hangzhou, China, p. 22. (abstract)

81. Mishchenko M.I., Dlugach J.M., Lock J.A., Videen G., Yang P., and Yurkin M.A. Lorenz-Mie scattering in an absorbing host medium, AGU Fall Meeting, 10–14 December 2018, Washington, DC, USA, abstract A14A-08. (abstract)

80. Romanov A.V., Maltsev V.P., and Yurkin M.A. Estimating particle non-sphericity from the Fourier spectrum of its light-scattering pattern, Progress In Electromagnetics Research Symposium (PIERS 2018 Toyama), 1–4 August 2018, Toyama, Japan, p. 1309 (invited). (abstract, slides)

79. Yurkin M.A. and Mishchenko M.I. Derivation and analysis of the volume integral equation formulation of electromagnetic scattering, Progress In Electromagnetics Research Symposium (PIERS 2018 Toyama), 1–4 August 2018, Toyama, Japan, p. 584. (abstract, slides)

78. Yurkin M.A. Convergence of iterative solution of a linear system in the framework of the discrete dipole approximation, Progress In Electromagnetics Research Symposium (PIERS 2018 Toyama), 1–4 August 2018, Toyama, Japan, p. 197. (abstract, slides)

77. Trusov K.V., Chernyshev A.V., Konokhova A.I., Yurkin M.A., Khalo I.V., and Maltsev V.P. Nuclear apoptotic volume decrease in individual cells: Confocal microscopy imaging and kinetic modeling, CYTO 2018 – 33rd Congress of ISAC, 28 April – 2 May 2018, Prague, Czech Republic, p. 244. (abstract)

76. Chernova D.N., Konokhova A.I., Yurkin M.A., and Maltsev V.P. Light-scattering gating and characterization of plasma submicron particles, CYTO 2018 – 33rd Congress of ISAC, 28 April – 2 May 2018, Prague, Czech Republic, p. 260. (abstract)

75. Yurkin M.A. and Mishchenko M.I. Advanced topics related to the volume integral equation formulation of electromagnetic scattering, The 17th Electromagnetic and Light Scattering Conference, 5–9 March 2018, College Station, TX, USA, p. 128. (abstract, slides)

74. Romanov A.V., Maltsev V.P., and Yurkin M.A. A spectral method to detect the particle non-sphericity from its light-scattering pattern, The 17th Electromagnetic and Light Scattering Conference, 5–9 March 2018, College Station, TX, USA, p. 107. (abstract, slides)

73. Muliukov A.R. and Yurkin M.A. Hierarchical clustering of the precomputed signals database to solve the parametric inverse light-scattering problem, The 17th Electromagnetic and Light Scattering Conference, 5–9 March 2018, College Station, TX, USA, p. 98. (abstract, poster)

72. Sander K., Yurkin M.A., and Fennel T. 3D characterization of free nanostructures via two-color coherent diffractive imaging, Clustertreffen 2017, 24–29 September 2017, Bacharach, Germany.

71. Yurkin M.A. and Mishchenko M.I. What is random orientation in light scattering? International Workshop on Atmospheric Scattering, Radiation, and Remote Sensing, 26–28 June 2017, Hangzhou, China. (invited, slides)

70. Chernova D.N., Konokhova A.I., Iastrebova E.S., Yurkin M.A., and Maltsev V.P. Detection of lipoprotein particles among blood microvesicles by scanning flow cytometry, CYTO 2017 – 32nd Congress of ISAC, 10–14 June 2017, Boston, USA, pp. 168–169. (abstract)

69. Chernova D.N., Konokhova A.I., Yurkin M.A., Strokotov D.I., and Maltsev V.P. Analysis of chylomicrons in blood by scanning flow cytometry, 2017 Annual Meeting of the International Society for Laboratory Hematology, 4–6 May 2017, Honolulu, USA, Int. J. Lab. Hemat. 39(S2): 28. (abstract)

68. Yurkin M.A. Estimation of solution uncertainties for parametric inverse light-scattering problems, The 16th Electromagnetic and Light Scattering Conference, 19–25 March 2017, College Park, MD, USA, p. 23 (invited).  (abstract, slides)

67. Romanov A.V., Konokhova A.I., Gilev K.V., Maltsev V.P., and Yurkin M.A. A spectral method to characterize single spheres from light-scattering patterns, The 16th Electromagnetic and Light Scattering Conference, 19–25 March 2017, College Park, MD, USA, p. 116. (abstract, poster)

66. Yurkin M.A. and Mishchenko M.I. Group-theoretical foundation of the random orientation in far-field electromagnetic scattering, The 16th Electromagnetic and Light Scattering Conference, 19–25 March 2017, College Park, MD, USA, p. 149. (abstract, poster)

65. Sander K., Yurkin M.A., and Fennel T. Three-dimensional characterization of free nanostructures via two-color coherent diffractive imaging, DPG Frühjahrstagung (Spring Meeting) of the Atomic, Molecular, Plasma Physics and Quantum Optics Section (SAMOP), 6–10 March 2017, Mainz, Germany. (abstract)

64. Yurkin M.A. Exact solution, capabilities of discrete-dipole approximation code ADDA, Workshop "One-Billion-Particle electromagnetic scattering Problem (OBPP)", part of EMTS 2016, 19 August 2016, Helsinki, Finland. (slides)

63. Yurkin M.A. Capabilities of the discrete dipole approximation for large particle systems, URSI Commission B International Symposium on Electromagnetic Theory (EMTS 2016), 14–18 August 2016, Espoo, Finland, pp. 386–389 (invited). (paper, slides)

62. Yurkin M.A. Performance of iterative solvers in the discrete dipole approximation, URSI Commission B International Symposium on Electromagnetic Theory (EMTS 2016), 14–18 August 2016, Espoo, Finland, pp. 488–491. (paper, slides)

61. Moskalensky A.E., Litvinenko A.L., Nekrasov V.M., and Yurkin M.A. A physical model of blood platelets shape and its effect on light scattering, URSI Commission B International Symposium on Electromagnetic Theory (EMTS 2016), 14–18 August 2016, Espoo, Finland, pp. 583–585. (paper)

60. Konokhova A.I., Yurkin M.A., and Maltsev V.P. Light scattering into two fixed angles vs. angle-resolved measurements for characterization of single submicron particles, URSI Commission B International Symposium on Electromagnetic Theory (EMTS 2016), 14–18 August 2016, Espoo, Finland, pp. 647–649. (paper)

59. Chernova D.N., Konokhova A.I., Yurkin M.A., Strokotov D.I., and Maltsev V.P. Collagen-induced platelet activation on microvesicles in platelet-rich plasma with scanning flow cytometry, CYTO 2016 – 31st Congress of ISAC, 11–15 June 2016, Seattle, USA, p. 127. (abstract)

58. Konokhova A.I., Yurkin M.A., Korneev D.V., and Maltsev V.P. Limitations of microvesicle analysis with light-scattering flow cytometry, CYTO 2016 – 31st Congress of ISAC, 11–15 June 2016, Seattle, USA, p. 176. (abstract)

57. Moskalensky A.E., Frolov L.B., Yurkin M.A., and Maltsev V.P. Measurement of light scattering in backward hemisphere: a new way for the study of platelet aggregation with scanning flow cytometry, CYTO 2015 – 30th Congress of ISAC, 26–30 June 2015, Glasgow, UK, p. 104. (abstract)

56. Konokhova A.I., Chernyshev A.V., Orlova D.Y., Yurkin M.A., Khalo I.V., and Maltsev V.P. Nuclear apoptotic volume decrease in individual cells: time-lapse confocal microscopy imaging and molecular-kinetic modeling, CYTO 2015 – 30th Congress of ISAC, 26–30 June 2015, Glasgow, UK, p. 118. (abstract)

55. Chernova D.N., Konokhova A.I., Yurkin M.A., and Maltsev V.P. Scanning flow cytometry study of cell-derived microparticles and their aggregates in platelet-rich plasma, CYTO 2015 – 30th Congress of ISAC, 26–30 June 2015, Glasgow, UK, p. 141. (abstract)

54. Moskalensky A.E., Frolov L.B., Yurkin M.A., and Maltsev V.P. Identification of blood platelets aggregates with angle-resolved light scattering in backward hemisphere, Electromagnetic and Light Scattering XV, 21–26 June 2015, Leipzig, Germany, paper 53. (abstract)

53. Konokhova A.I., Chernova D.N., Yurkin M.A., and Maltsev V.P. Accurate measurement of refractive index of individual spherical particles from angle-resolved light scattering, Electromagnetic and Light Scattering XV, 21–26 June 2015, Leipzig, Germany, paper 95. (abstract)

52. Yurkin M.A. The discrete dipole approximation – the jack of all light trades, Electromagnetic and Light Scattering XV, 21–26 June 2015, Leipzig, Germany, paper 123 (invited). (abstract, slides)

51. Polshchitsin A.A., Yurkin M.A., and Maltsev V.P. Initial stages of immunoagglutination studied with the adaptive polarization nephelometry, Electromagnetic and Light Scattering XV, 21–26 June 2015, Leipzig, Germany, paper 126. (abstract)

50. Kim K.-H. and Yurkin M.A. Simulation of temporal response of plasmonic nanoparticles with time-domain discrete-dipole approximation, Electromagnetic and Light Scattering XV, 21–26 June 2015, Leipzig, Germany, paper 141. (abstract, slides)

49. Smunev D.A., Chaumet P.C., and Yurkin M.A. Extension of the discrete dipole approximation to rectangular cuboid dipoles, Electromagnetic and Light Scattering XV, 21–26 June 2015, Leipzig, Germany, paper 148. (abstract, slides)

48. Yurkin M.A. and Huntemann M. Discrete dipole approximation for particles near surface: a 3D-FFT-accelerated implementation, Laser-light and Interactions with Particles (LIP-2014), 25–29 August 2014, Marseille, France, paper FF-1. (paper, slides)

47. Konokhova A.I., Chernova D.N., Strokotov D.I., Yurkin M.A., and Maltsev V.P. Identification and characterization of cell-derived microparticles using light scattering, Laser-light and Interactions with Particles (LIP-2014), 25–29 August 2014, Marseille, France, paper PC-7. (paper)

46. Gilev K.V., Yurkin M.A., Chernyshev A.V., and Maltsev V.P. Solution of the inverse light-scattering problem for characterization of red blood cells, International conference “Mathematical Modeling and High-Performance Computing in Bioinformatics, Biomedicine and Biotechnology” (MM-HPC-BBB-2014), 24–27 June 2014, Novosibirsk, Russia, p. 30. (abstract)

45. Moskalensky A.E., Strokotov D.I., Yurkin M.A., and Maltsev V.P. Characterization of blood platelets solving the inverse light-scattering problem with pre-computed interpolating set, International conference “Mathematical Modeling and High-Performance Computing in Bioinformatics, Biomedicine and Biotechnology” (MM-HPC-BBB-2014), 24–27 June 2014, Novosibirsk, Russia, p. 58. (abstract)

44. Konokhova A.I., Gilev K.V., Strokotov D.I., Yurkin M.A., and Maltsev V.P. The solution of the inverse light-scattering problem for precise morphological characterization of milk fat globules, International conference “Mathematical Modeling and High-Performance Computing in Bioinformatics, Biomedicine and Biotechnology” (MM-HPC-BBB-2014), 24–27 June 2014, Novosibirsk, Russia, p. 45. (abstract)

43. Mikhaelis I.M., Chernyshev A.V., Yurkin M.A., Nekrasov V.M., and Maltsev V.P. Apoptotic nuclear volume decrease: analysis of confocal images and mathematical model, The 9th international conference on Bioinformatics of Genome Regulation and Structure\Systems Biology (BGRS\SB-2014), 23–28 June 2014, Novosibirsk, Russia, p. 106. (abstract)

42. Konokhova A.I., Chernova D.N., Strokotov D.I., Yurkin M.A., Chernyshev A.V., and Maltsev V.P. Label-free identification and characterization of cell-derived microparticles with scanning flow cytometry, CYTO 2014 – XXIX Congress of the ISAC, 17–21 May 2014, Ft. Lauderdale, USA, p. 119. (abstract)

41. Moskalensky A.E., Yurkin M.A., Strokotov D.I., and Maltsev V.P. A shape-based study of platelet activation with the scanning flow cytometry, CYTO 2014 – XXIX Congress of the ISAC, 17–21 May 2014, Ft. Lauderdale, USA, p. 157. (abstract)

40. Rodionov A.A., Strokotov D.I., Konokhova A.I., Mikhaelis I.M., Yurkin M.A., Chernyshev A.V., and Maltsev V.P. Flow cytometry and food hydrocolloids: milk fat globules characterization, CYTO 2014 – XXIX Congress of the ISAC, 17–21 May 2014, Ft. Lauderdale, USA, p. 189. (abstract)

39. Moskalensky A.E., Yurkin M.A., and Maltsev V.P. Aggregates of biological cells: surprising features in light scattering, Workshop "Scattering by Aggregates (on Surfaces)", 24–25 March 2014, Bremen, Germany, pp. 58–61. (abstract)

38. Yurkin M.A. and Moskalensky A.E. Fast discrete dipole approximation for particles on surface, Workshop "Scattering by Aggregates (on Surfaces)", 24–25 March 2014, Bremen, Germany, pp. 94–95. (abstract, slides)

37. Yurkin M.A. and Kahnert M. Benchmark calculations with the discrete dipole approximation and the T-matrix method for cubes, Electromagnetic and Light Scattering XIV, 17–21 June 2013, Lille, France, paper 25. (abstract, slides)

36. Moskalensky A.E., Yurkin M.A., Konokhova A.I., Strokotov D.I., and Maltsev V.P. Application of the scanning flow cytometry for characterization of blood platelets, Electromagnetic and Light Scattering XIV, 17–21 June 2013, Lille, France, paper 50. (abstract)

35. Konokhova A.I., Yurkin M.A., and Maltsev V.P. Characterization of E. coli morphology by scanning flow cytometry, Electromagnetic and Light Scattering XIV, 17–21 June 2013, Lille, France, paper 73. (abstract)

34. Moskalensky A.E., Yurkin M.A., Konokhova A.I., Strokotov D.I., Nekrasov V.M., Chernyshev A.V., and Maltsev V.P. A label-free shape-based detection of activated platelets with scanning flow cytometry, CYTO 2013 – XXVIII Congress of the ISAC, 19–22 May 2013, San Diego, USA, p. 127. (abstract)

33. Konokhova A.I., Yurkin M.A., and Maltsev V.P. Scanning flow cytometry for static and dynamic characterization of E. coli cells, CYTO 2013 – XXVIII Congress of the ISAC, 19–22 May 2013, San Diego, USA, pp. 194–195. (abstract)

32. Yurkin M.A. Challenges in simulation of optical properties of metallic nanoparticles using the discrete dipole approximation. Tacona-Photonics 2012, 24–26 October 2012, Bad Honnef, Germany, AIP Conf. Proc.1475, 98–100. (paper, slides)

31. Strokotov D.I., Moskalensky A.E., Nekrasov V.M., Yurkin M.A., Chernyshev A.V., and Maltsev V.P. Optical super-resolution with polarized light-scattering for precise characterization of non-spherical particles by flow cytometry. CYTO 2012 – XXVII Congress of the ISAC, 23–27 June 2012, Leipzig, Germany, p. 171. (abstract)

30. Moskalensky A.E., Strokotov D.I., Nekrasov V.M., Yurkin M.A., Chernyshev A.V., and Maltsev V.P. Simultaneous determination of size and shape of human blood platelets using light-scattering flow cytometry. CYTO 2012 – XXVII Congress of the ISAC, 23–27 June 2012, Leipzig, Germany, p. 177. (abstract)

29. Konokhova A.I., Yurkin M.A., Moskalensky A.E., Chernyshev A.V., and Maltsev V.P. Identification and characterization of blood microparticles from light scattering. CYTO 2012 – XXVII Congress of the ISAC, 23–27 June 2012, Leipzig, Germany, p. 178. (abstract)

28. Konokhova A.I., Yurkin M.A., Gelash A.A., and Maltsev V.P. Characterization of E. coli morphology from light scattering. CYTO 2012 – XXVII Congress of the ISAC, 23–27 June 2012, Leipzig, Germany, pp. 204–205. (abstract)

27. Yurkin M.A., Dyatlov G.V., Gilev K.V., and Maltsev V.P. Optimization methods for characterization of single particles from light scattering patterns. Electromagnetic and Light Scattering XIII, 26–30 September 2011, Taormina, Italy, Atti Accad. Pelorit. Pericol. Cl. Sci. Fis. Mat. Nat. 89: C1V89S1P096. (paper, slides)

26. Yurkin M.A. Development of the discrete dipole approximation for simulation of interaction of light with nanoparticles of arbitrary shape and structure, RusNanoTech 2010, 1–3 November 2010, Moscow, Russia. (abstract, slides)

25. Gelash A.A., Yurkin M.A., and Maltsev V.P. Characterization of E. Coli cells by the scanning flow cytometry. NATO ASI on Special Detection Technique (Polarimetry) and Remote Sensing, 12–25 September 2010, Kyiv, Ukraine, p.56. (abstract)

24. Gilev K.V., Yurkin M.A., and Maltsev V.P. Characterization of erythrocytes and platelets using precalculated database of light scattering patterns. NATO ASI on Special Detection Technique (Polarimetry) and Remote Sensing, 12–25 September 2010, Kyiv, Ukraine, p.58. (abstract)

23. Yurkin M.A., de Kanter D., and Hoekstra A.G. Accuracy of the discrete dipole approximation for gold nanoparticles. NATO ASI on Special Detection Technique (Polarimetry) and Remote Sensing, 12–25 September 2010, Kyiv, Ukraine, p.118. (abstract, slides)

22. Yurkin M.A., Yurkina O.M., and Hoekstra A.G. Features and capabilities of the discrete dipole approximation code ADDA 1.0. NATO ASI on Special Detection Technique (Polarimetry) and Remote Sensing, 12–25 September 2010, Kyiv, Ukraine, p.119. (abstract, slides, poster)

21. Yurkin M.A. Light scattering simulations with the discrete dipole approximation. Electromagnetic and Light Scattering XII, 28 June – 2 July 2010, Helsinki, Finland, pp.326–329 (invited). (paper, slides)

20. Strokotov D.I., Yurkin M.A., Gilev K.V., Maltsev V.P. Scanning flow cytometry in measurement of lymphocyte morphology: cell and nucleus sizes, cytoplasm and nucleus refractive indices. XXV Congress of the International Society for Advancement of Cytometry, 8–12 May 2010, Seattle, Washington, USA, p.217. (abstract)

19. Strokotov D.I., Yurkin M.A., Maltsev V.P. Solution of inverse light scattering problem for mononuclear cell characterization. IX International conference "Atomic and Molecular Pulsed Lasers" (AMPL-2009), 14–18 September 2009, Tomsk, Russia, p.109. (abstract)

18. Yurkin M.A., Strokotov D.I., Gilev K.V., van Bockstaele D.R., Hoekstra A.G., Rubtsov N.B., and Maltsev V.P. Characterization of lymphocytes using the scanning flow cytometry. PIERS 2009 in Moscow Abstracts, 18–21 August 2009, Moscow, Russia, p.352. (abstract, slides)

17. Yurkin M.A. Discrete dipole approximation for extreme refractive indices. Oort Workshop 2009 Interaction of cosmic grains with light: recent developments, 26 June 2009, Leiden, Netherlands (invited, slides).

16. Yurkin M.A., de Kanter D., and Hoekstra A.G. Study of light scattering by a granulated coated sphere – a model of granulated blood cells. The 11th Conference on Electromagnetic and Light Scattering, 7–12 September 2008, Hatfield, UK, pp.299–302. (paper, slides)

15. Yurkin M.A., Min M., and Hoekstra A.G. Application of the discrete dipole approximation to extreme refractive indices: filtered coupled dipoles revived. The 11th Conference on Electromagnetic and Light Scattering, 7–12 September 2008, Hatfield, UK, pp.109–112. (paper, slides)

14. Semyanov К.А., Tarasov P.A., Yurkin M.A., Hoekstra A.G., and Maltsev V.P. Characterization of native red blood cell morphology by scanning flow cytometry. 8th International Congress on Optical Particle Characterization, 9–13 July 2007, Graz, Austria, p.56. (abstract)

13. Yurkin M.A., Hoekstra A.G., Brock R.S., and Lu J. Systematic comparison of the discrete dipole approximation and the finite difference time domain method. The 10th Conference on Electromagnetic and Light Scattering, 17–22 June 2007, Bodrum, Turkey, pp.249–252. (paper, slides)

12. Yurkin M.A., Semyanov K.A., Maltsev V.P., and Hoekstra A.G. Light scattering by granulated spheres applied to discriminate subtypes of granulated blood cells. International Conference on Laser Applications in Life Sciences 2007, 11–14 June 2007, Moscow, Russia, p.TuL07-II-3. (abstract, slides)

11. Yurkin M.A. Current capabilities of the discrete dipole approximation for very large particles: speed, accuracy, and computational tricks. The DDA-Workshop, 23 March 2007, Bremen, Germany, pp.31–33. (abstract, slides)

10. Yurkin M.A. Tutorial for "Amsterdam DDA". The DDA-Workshop, 23 March 2007, Bremen, Germany, p.30. (abstract, handout)

9. Yurkin M.A. and Hoekstra A.G. An extrapolation technique to increase the accuracy of the discrete dipole approximation. The 9th Conference on Electromagnetic and Light Scattering, 5–9 June 2006, St. Petersburg, Russia, pp.283–286. (paper, slides)

8. Yurkin M.A., Maltsev V.P., and Hoekstra A.G. Can the discrete dipole approximation simulate scattering of particles with size parameter equal to 100? The 9th Conference on Electromagnetic and Light Scattering, 5–9 June 2006, St. Petersburg, Russia, pp.279–282. (paper, slides)

7. Penttila A., Zubko E., Lumme K., Muinonen K., Yurkin M.A., Shkuratov Y., and Hoekstra A.G. Comparison between discrete dipole and exact techniques. The 9th Conference on Electromagnetic and Light Scattering, 5–9 June 2006, St. Petersburg, Russia, pp.227–230. (paper)

6. Strokotov D.I., Skribunov I.G., Yurkin M.A., van Bockstaele D.R., Lenjou M., and Semyanov K.A. Identification of blood cells subpopulations from angle resolved light scattering. Optics of Biological Particles, 3–6 October 2005, Novosibirsk, Russia, pp.48–49. (abstract)

5. Yurkin M.A., de Kanter D., and Hoekstra A.G. Applicability of effective medium approximation to light scattering by granulated biological cells - first results. Optics of Biological Particles, 3–6 October 2005, Novosibirsk, Russia, pp.46–47. (abstract, slides)

4. Yurkin M.A. and Hoekstra A.G. Capabilities of the discrete dipole approximation for simulation light scattering by biological cells. Optics of Biological Particles, 3–6 October 2005, Novosibirsk, Russia, pp.19–20. (abstract, slides)

3. Yurkin M.A., Semyanov K.A., Hoekstra A.G., and Maltsev V.P. Experimental and theoretical study of light scattering by individual mature red blood cells with scanning flow cytometry and discrete dipole approximation. The 8th Conference on Electromagnetic and Light Scattering, 16–20 May 2005, Salobrena, Spain, pp.333–336. (paper, slides)

2. Surovtsev I.V., Yurkin M.A., Shvalov A.N., and Sivolobova G.F. Kinetic study of the initial stages of agglutination process with scanning flow cytometer. Manipulation and Analysis of Biomolecules, Cells and Tissues, Photonic West 2003, 28–29 January 2003, San Jose, California, USA. SPIE Proc. 4962: 354–362. (paper)

1. Surovtsev I.V., Grajdantseva A.A., and Yurkin M.A. Use of scanning flow cytometry for biodetection via earliest stages of agglutination immunoassay. Chemical Biological Medical Treatment Symposium IV, 26 April – 2 May 2002, Spiez, Switzerland.