Nakonieczna Anna

Nakonieczna Anna

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Publikacje pracownika

  1. 2017, Electromagnetic simulations for salinity index error estimation, Measurement Science and Technology, 28, 014012, 1-7
  2. 2016, Electrical impedance measurements for detecting artificial chemical additives in liquid food products, Food Control, 66: 116-129
  3. 2016, Electrical impedance measurements for detecting artificial chemical additives in liquid food products, V Sympozjum Inżynierii Żywności z okazji 200-lecia Szkoły Głównej Gospodarstwa Wiejskiego w Warszawie, Warszawa, 21-23.06.2016 r., 98-98
  4. 2016, Scalar field as an intrinsic time measure in coupled dynamical matter-geometry systems. I. Neutral gravitational collapse, Journal of High Energy Physics, 49, DOI: 10.1007/JHEP02(2016)049
  5. 2015, Detection of Atmospheric Water Deposits in Porous Media Using the TDR Technique., Sensors, 15(1): 8464-8480
  6. 2015, Scalar field as a time variable during gravitational evolution., Physical Review D, 92(6), DOI: 10.1103/PhysRevD.92.064031
  7. 2015, Dark sector impact on gravitational collapse of an electrically charged scalar field., Journal of High Energy Physics, DOI: 10.1007/JHEP11(2015)012(2015:12): 1-47
  8. 2015, Determination of dielectric permittivity and electrical conductivity of soil samples of various water contents and salinities using broadband dielectric measurements., 2015
  9. 2015, „Project and Validation of an Automatic System for Soil Moisture Regulation Using TDR Technique”., 2015
  10. 2015, Impact of the TDR Pulse Width on the Reflection Amplitude and its Dependence on Soil Dielectric Loss and Electrical Conductivity., 2015, 86-86
  11. 2015, Determination of Complex Dielectric Permittivity Spectra from the Analysis of Electrical Signal Reflection in Transmission Lines of Various Lengths., 2015, 84-84
  12. 2015, Porous Corundum Plate Sensor for Atmospheric Water Deposits’ TDR Measurements, 2015, 83-83
  13. 2014, A low-frequency sensor for determination of honey electrical properties in varying temperature conditions., Journal of Food Engineering, 2014, (138): 17-22
  14. 2014, Charakterystyka temperaturowa przenikalności elektrycznej miodu akacjowego., NAUKA i PRZEMYSŁ metody spektroskopowe w praktyce, nowe wyzwania i możliwości, 2014, (Rozdz.): 804-807
  15. 2014, Dielectric properties of juices and their variation over time during storage., 2014, P-31
  16. 2014, Soil bound water/free water temperature effect determined by time domain reflectometry., 2014, O-24
  17. 2014, Application of the fast Fourier transform method to the TDR signal analysis based on data from a vector network analyzer., 2014, 114-115
  18. 2014, Influence of soil electrical conductivity and dielectric dispersion parameters on time-amplitude characteristics of TDR reflectograms., 2014, P3-228
  19. 2014, Porous ceramic plate sensor for effective non-rainfall TDR measurements., 2014, AF1267
  20. 2014, Measurements of effective non-rainfall in soil with the use of time-domain reflectometry technique., 2014, Vol,16, EGU2014-1858
  21. 2013, Application of a Coaxial-Like Sensor for Impedance Spectroscopy Measurements of Selected Low-Conductivity Liquids, Sensors, 2013, 1313301-13317
  22. 2013, Selected issues of the TDR based measurement of the soil apparent dielectric permittivity oriented to the evaluation of soil moisture, 2013, 169-173
  23. 2013, Szerokopasmowe widma impedancji ciekłych materiałów pochodzenia rolniczego, 2013, 41-42
  24. 2013, Pomiary parametrów elektrycznych wodnych roztworów cukrów, 2013, 36-36
  25. 2013, Impedance spectroscopy as a potential tool for differentiation among selected food additives, 2013, 177-183
  26. 2013, Measurements of electrical parameters of carbohydrates’ aqueous solutions, 2013, 103-103
  27. 2013, Impedance spectroscopy measurements of liquid materials – sample agrophysical implementation, 2013, 65-65
  28. 2013, Equivalent circuits for modelling physicochemical properties of low-concentrated aqueous solutions of common food preservatives, 2013, 55-55
  29. 2013, Interpreting impedance spectroscopy measurements using equivalent electrical circuits, 2013, 41-41
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