Publications of Wieslaw M. Macek

A list of publications authored or co-authored by Wieslaw M. Macek, derived from the SAO/NASA Astrophysics Data System (ADS). The number in brackets after each title indicates the number of citations that the paper has received.

Orcid ID: 0000-0002-8190-4620

List of publications ordered by citations
Number of papers: 77 (refereed: 69)
No. of citations: 1124
First author papers: 50 (refereed: 42)

2026

1. Multifractal spectrum observed in the Universe distribution of galaxies [0]
   Macek, W. M. & Wójcik, D., Chaos, 36, 023129

2025

1. Searching for Universality of Turbulence in the Earth's Magnetosphere [1]
   Wójcik, Dariusz & Macek, Wiesław M., Journal of Geophysical Research (Space Physics), 130, e2025JA034020

2024

1. MMS Observations of Markov Turbulence in the Magnetosheath on Kinetic Scales [0]
   Macek, Wieslaw, Macek, W. M. & Wójcik, D., essoar.173343616
2. Testing for Markovian character of transfer of fluctuations in solar wind turbulence on kinetic scales [4]
   Wójcik, Dariusz & Macek, Wiesław M., Physical Review E, 110, 025203

2023

1. Statistical analysis of stochastic magnetic fluctuations in space plasma based on the MMS mission [7]
   Macek, Wiesław M. & Wójcik, Dariusz, MNRAS, 526, 5779
2. Magnetospheric Multiscale Observations of Markov Turbulence on Kinetic Scales [7]
   Macek, Wiesław M., Wójcik, Dariusz & Burch, James L., ApJ, 943, 152

2021

1. Turbulence and Complexity of Magnetospheric Plasmas [16]
   Echim, Marius, Chang, Tom, Kovacs, Peter, Wawrzaszek, Anna, Yordanova, Emiliya, Narita, Yasuhito, Vörös, Zoltan, Bruno, Roberto, Macek, Wieslaw, Mursula, Kalevi & Consolini, Giuseppe, Magnetospheres in the Solar System (Editors: Maggiolo, Romain, André, Nicolas, Hasegawa, Hiroshi & Welling, Daniel T.), 2, p. 67

2019

1. Magnetospheric Multiscale Mission Observations of Reconnecting Electric Fields in the Magnetotail on Kinetic Scales [8]
   Macek, W. M., Silveira, M. V. D., Sibeck, D. G., Giles, B. L. & Burch, J. L., Geophysical Research Letters, 46, 10,295
2. Mechanism of Reconnection on Kinetic Scales Based on Magnetospheric Multiscale Mission Observations [13]
   Macek, W. M., Silveira, M. V. D., Sibeck, D. G., Giles, B. L. & Burch, J. L., ApJ, 885, L26

2018

1. Magnetospheric Multiscale Observations of Turbulence in the Magnetosheath on Kinetic Scales [27]
   Macek, W. M., Krasińska, A., Silveira, M. V. D., Sibeck, D. G., Wawrzaszek, A., Burch, J. L. & Russell, C. T., ApJ, 864, L29
2. Nonlinear dynamics and complexity in the generalized Lorenz system [9]
   Macek, Wiesław M., Nonlinear Dynamics, 94, 2957
3. Intermittent turbulence in the heliosheath and the magnetosheath plasmas based on Voyager and THEMIS data [4]
   Macek, Wiesław M., Wawrzaszek, Anna & Kucharuk, Beata, Nonlinear Processes in Geophysics, 25, 39

2017

1. Intermittent Anisotropic Turbulence Detected by THEMIS in the Magnetosheath [10]
   Macek, W. M., Wawrzaszek, A., Kucharuk, B. & Sibeck, D. G., ApJ, 851, L42

2015

1. Dynamics of Line Preserving Field Line Motions [2]
   Figura, Przemysław & Macek, Wiesław M., Zeitschrift Naturforschung Teil A, 70, 643
2. THEMIS observation of intermittent turbulence behind the quasi-parallel and quasi-perpendicular shocks [10]
   Macek, W. M., Wawrzaszek, A. & Sibeck, D. G., Journal of Geophysical Research (Space Physics), 120, 7466
3. Evolution of Intermittency in the Slow and Fast Solar Wind beyond the Ecliptic Plane [22]
   Wawrzaszek, A., Echim, M., Macek, W. M. & Bruno, R., ApJ, 814, L19

2014

1. Multifractal Structures Detected by Voyager 1 at the Heliospheric Boundaries [22]
   Macek, W. M., Wawrzaszek, A. & Burlaga, L. F., ApJ, 793, L30
2. Hyperchaotic Intermittent Convection in a Magnetized Viscous Fluid [15]
   Macek, Wiesław M. & Strumik, Marek, Physical Review Letters, 112, 074502
3. Advective Transport of Interstellar Plasma into the Heliosphere across the Reconnecting Heliopause [19]
   Strumik, M., Grzedzielski, S., Czechowski, A., Macek, W. M. & Ratkiewicz, R., ApJ, 782, L7

2013

1. Model of line preserving field line motions using Euler potentials [6]
   Figura, Przemysław & Macek, Wiesław M., Annals of Physics, 333, 127
2. Voyager 2 observation of the multifractal spectrum in the heliosphere and the heliosheath [8]
   Macek, W. M. & Wawrzaszek, A., Nonlinear Processes in Geophysics, 20, 1061
3. Small-scale Local Phenomena Related to the Magnetic Reconnection and Turbulence in the Proximity of the Heliopause [22]
   Strumik, M., Czechowski, A., Grzedzielski, S., Macek, W. M. & Ratkiewicz, R., ApJ, 773, L23

2012

1. Observation of the multifractal spectrum in the heliosphere and the heliosheath by Voyager 1 and 2 [23]
   Macek, W. M., Wawrzaszek, A. & Carbone, V., Journal of Geophysical Research (Space Physics), 117, A12101
2. Multifractal Turbulence in the Heliosphere. [3]
   Macek, Wiesław M., Exploring the Solar Wind (Editors: Lazar, Marian), p.143

2011

1. Multifractal two-scale Cantor set model for slow solar wind turbulence in the outer heliosphere during solar maximum [7]
   Macek, W. M. & Wawrzaszek, A., Nonlinear Processes in Geophysics, 18, 287
2. Observation of the multifractal spectrum at the termination shock by Voyager 1 [23]
   Macek, W. M., Wawrzaszek, A. & Carbone, V., Geophysical Research Letters, 38, L19103
3. Multifractal structure of small and large scales fluctuations of interplanetary magnetic fields [2]
   Macek, WiesŁaw M. & Wawrzaszek, Anna, Planetary and Space Science, 59, 569

2010

1. New Multifractal Analyses of the Solar Wind Turbulence : Rank-Ordered Multifractal Analysis and Generalized Two-scale Weighted Cantor Set Model [6]
   Lamy, H., Wawrzaszek, A., Macek, W. M. & Chang, T., Twelfth International Solar Wind Conference (Editors: Maksimovic, M., Issautier, K., Meyer-Vernet, N., Moncuquet, M. & Pantellini, F.), American Institute of Physics Conference Series, 1216, p. 124
2. Model for hydromagnetic convection in a magnetized fluid [17]
   Macek, Wiesław M. & Strumik, Marek, Physical Review E, 82, 027301
3. Chaos and multifractals in the solar wind [17]
   Macek, Wiesław M., Advances in Space Research, 46, 526
4. Multifractal Turbulence at the Termination Shock [6]
   Macek, Wiesław M. & Wawrzaszek, Anna, Twelfth International Solar Wind Conference (Editors: Maksimovic, M., Issautier, K., Meyer-Vernet, N., Moncuquet, M. & Pantellini, F.), American Institute of Physics Conference Series, 1216, p. 572
5. Observation of the multifractal spectrum in solar wind turbulence by Ulysses at high latitudes [27]
   Wawrzaszek, Anna & Macek, Wieslaw M., Journal of Geophysical Research (Space Physics), 115, A07104

2009

1. Chaos and Multifractals in the Solar System Plasma [1]
   Macek, W. M., Topics on Chaotic Systems: Selected Papers from Chaos 2008 International Conference. Edited by SKIADAS CHRISTOS ET AL. Published by World Scientific Publishing Co. Pte. Ltd (Editors: Skiadas, Christos & et al.), p. 214
2. Evolution of asymmetric multifractal scaling of solar wind turbulence in the outer heliosphere [28]
   Macek, Wiesław M. & Wawrzaszek, Anna, Journal of Geophysical Research (Space Physics), 114, A03108

2008

1. Generalized two-scale weighted Cantor set model for solar wind turbulence [28]
   Macek, W. M. & Szczepaniak, A., Geophysical Research Letters, 35, L02108
2. Statistical analysis of transfer of fluctuations in solar wind turbulence [11]
   Strumik, M. & Macek, W. M., Nonlinear Processes in Geophysics, 15, 607
3. Influence of dynamical noise on time series generated by nonlinear maps [7]
   Strumik, Marek & Macek, Wiesław M., Physica D Nonlinear Phenomena, 237, 613
4. Testing for Markovian character and modeling of intermittency in solar wind turbulence [24]
   Strumik, Marek & Macek, Wiesław M., Physical Review E, 78, 026414
5. Asymmetric multifractal model for solar wind intermittent turbulence [31]
   Szczepaniak, A. & Macek, W. M., Nonlinear Processes in Geophysics, 15, 615
6. Unstable manifolds for the hyperchaotic Rössler system [4]
   Szczepaniak, Anna & Macek, Wiesław M., Physics Letters A, 372, 2423

2007

1. Multifractality and intermittency in the solar wind [46]
   Macek, W. M., Nonlinear Processes in Geophysics, 14, 695

2006

1. Modeling Multifractality of the Solar Wind [23]
   Macek, Wiesław M., Space Science Reviews, 122, 329
2. Testing for nonlinearity and low-dimensional dynamics in the slow solar wind [2]
   Macek, Wiesław M. & Strumik, Marek, Advances in Space Research, 37, 1544
3. Testing for multifractality of the slow solar wind [12]
   Macek, Wiesław M., Bruno, Roberto & Consolini, Giuseppe, Advances in Space Research, 37, 461

2005

1. On the magnetic field fluctuations during magnetospheric tail current disruption: A statistical approach [47]
   Consolini, Giuseppe, Kretzschmar, Matthieu, Lui, Anthony T. Y., Zimbardo, Gaetano & Macek, Wieslaw M., Journal of Geophysical Research (Space Physics), 110, A07202
2. Generalized dimensions for fluctuations in the solar wind [22]
   Macek, Wiesław M., Bruno, Roberto & Consolini, Giuseppe, Physical Review E, 72, 017202
3. Discriminating additive from dynamical noise for chaotic time series [9]
   Strumik, Marek, Macek, Wiesław M. & Redaelli, Stefano, Physical Review E, 72, 036219

2003

1. The multifractal spectrum for the solar wind flow [6]
   Macek, Wiesław M., Solar Wind Ten (Editors: Velli, Marco, Bruno, Roberto, Malara, Francesco & Bucci, B.), American Institute of Physics Conference Series, 679, p. 530

2002

1. Multifractality and chaos in the solar wind [8]
   Macek, Wiesław M., Experimental Chaos (Editors: Boccaletti, Stefano, Gluckman, Bruce J., Kurths, Jürgen, Pecora, Louis M. & Spano, Mark L.), American Institute of Physics Conference Series, 622, p. 74
2. Influence of colored noise on chaotic systems [9]
   Redaelli, Stefano, Plewczyński, Dariusz & Macek, Wiesław M., Physical Review E, 66, 035202

2001

1. Nonlinear emission mechanism for continuum radiation in Jupiter's magnetosphere [0]
   Macek, Wieslaw M., Journal of Geophysical Research, 106, 18907
2. Nonlinear dynamics and fractals in space [0]
   Macek, Wiesław M., Planetary and Space Science, 49, 1175
3. Testing for chaos in the solar wind and Alfvénic fluctuations [6]
   Macek, Wiesław M. & Redaelli, Stefano, Advances in Space Research, 28, 775
4. Lyapunov exponent and entropy of the solar wind flow [14]
   Redaelli, Stefano & Macek, Wiesław M., Planetary and Space Science, 49, 1211
5. The kolmogorov entropy of the Alfvénic fluctuations in the solar wind [2]
   Redaelli, Stefano & Macek, Wiesław M., Advances in Space Research, 28, 781

2000

1. Estimation of the entropy of the solar wind flow [50]
   Macek, Wiesław M. & Redaelli, Stefano, Physical Review E, 62, 6496

1999

1. Plasma waves in the outer heliosphere [0]
   Macek, Wiesław M., Solar Wind Nine (Editors: Habbal, Shadia Rifai, Esser, Ruth, Hollweg, Joseph V. & Isenberg, Philip A.), American Institute of Physics Conference Series, 471, p. 795
2. Testing for an attractor in the low-speed solar wind flow [10]
   Macek, Wiesław M., Solar Wind Nine (Editors: Habbal, Shadia Rifai, Esser, Ruth, Hollweg, Joseph V. & Isenberg, Philip A.), American Institute of Physics Conference Series, 471, p. 251

1998

1. Testing for an attractor in the solar wind flow [28]
   Macek, Wieslaw M., Physica D Nonlinear Phenomena, 122, 254

1997

1. Fractal analysis of the solar wind flow in the inner heliosphere. [16]
   Macek, Wieslaw M. & Obojska, Lidia, Chaos Solitons and Fractals, 8, 1601

1996

1. Emission Mechanism for Low-Frequency Radiation in the Outer Heliosphere [7]
   Macek, Wiesław M., Space Science Reviews, 76, 231

1995

1. Frequency drift of the VLF emissions generated by transient shocks near the heliopause [3]
   Czechowski, A., Grzedzielski, S. & Macek, W. M., Advances in Space Research, 16, 297
2. Mechanism for generation of radio emissions from the planetary and heliospheric foreshocks [3]
   Macek, W. M., Czechowski, A. & Grzedzielski, S., Advances in Space Research, 15, 467

1994

1. Mechanism of low-frequency radio emissions in the heliosphere [5]
   Macek, Wieslaw M., Geophysical Research Letters, 21, 249

1993

1. Generation mechanism of the low-frequency radio emissions in the outer heliosphere [3]
   Macek, W. M., Advances in Space Research, 13, 217

1992

1. Plasma wave observations at Neptune [6]
   Gurnett, D. A., Kurth, W. S., Granroth, L. J., Cairns, I. H., Macek, W. M., Poynter, R. L., Moses, S. L., Coroniti, F. V., Kennel, C. F. & Barbosa, D. D., Advances in Space Research, 12, 47
2. On a steady-state plasma sheet in the distant magnetotail [2]
   Macek, W. M. & Cowley, S. W. H., Planetary and Space Science, 40, 27
3. Distant magnetotails of the outer magnetic planets [4]
   Macek, W. M., Kurth, W. S., Lepping, R. P. & Sibeck, D. G., Advances in Space Research, 12, 47

1991

1. Low-frequency radio emissions in the outer heliosphere: Constraints on emission processes [15]
   Macek, W. M., Cairns, I. H., Kurth, W. S. & Gurnett, D. A., Journal of Geophysical Research, 96, 3801
2. Plasma wave generation near the inner heliospheric shock [22]
   Macek, W. M., Cairns, I. H., Kurth, W. S. & Gurnett, D. A., Geophysical Research Letters, 18, 357

1990

1. Reconnection Pattern at the Heliopause [0]
   Macek, W. M., Cospar, 1, 399

1989

1. First Plasma Wave Observations at Neptune [82]
   Gurnett, D. A., Kurth, W. S., Poynter, R. L., Granroth, L. J., Cairns, I. H., Macek, W. M., Moses, S. L., Coroniti, F. V., Kennel, C. F. & Barbosa, D. D., Science, 246, 1494
2. The deep planetary magnetotail revisited [3]
   Macek, Wieslaw M., Geophysical Research Letters, 16, 1249

1988

1. An open magnetopause model of the earth's distant tail based on ISEE 3 evidence [13]
   Grzedzielski, S. & Macek, W., Journal of Geophysical Research, 93, 1795

1986

1. Plasma Transport across the Heliopause [119]
   Fahr, H. J., Neutsch, W., Grzedzielski, S., Macek, W. & Ratkiewicz-Landowska, R., Space Science Reviews, 43, 329

1984

1. Comment on the observed plasma densities in Jupiter's distant magnetotail (Wake): A possible explanation [7]
   Grzedzielski, S. & Macek, W., Journal of Geophysical Research, 89, 2369

1981

1. Expected immersion of Saturn's magnetosphere in the jovian magnetic tail [23]
   Grzedzielski, S., Macek, W. & Oberc, P., Nature, 292, 615