80 citations as recorded by crossref.

1. Single-spacecraft Identification of Flux Tubes and Current Sheets in the Solar Wind F. Pecora et al.
2. Is heating of ions by Alfvén waves via nonresonant interactions applicable in the Earth’s magnetosphere? I. Barghouthi & W. Rabai
3. DRAFT: A Method for Wave Analyses in Space Plasmas W. Zhang et al.
4. Anisotropy evolution of magnetic field fluctuation through the bow shock Y. Narita & K. Glassmeier
5. Magnetic energy distribution in the four‐dimensional frequency and wave vector domain in the solar wind Y. Narita et al.
6. A Note on Capon's Minimum Variance Projection for Multi-Spacecraft Data Analysis Y. Narita
7. Four‐point Cluster application of magnetic field analysis tools: The Curlometer M. Dunlop et al.
8. MULTI-SPACECRAFT OBSERVATIONS OF LINEAR MODES AND SIDEBAND WAVES IN ION-SCALE SOLAR WIND TURBULENCE C. Perschke et al.
9. Two-point observations of low-frequency waves at 67P/Churyumov-Gerasimenko during the descent of PHILAE: comparison of RPCMAG and ROMAP I. Richter et al.
10. Finding the dispersion of low-frequency waves in cosmic plasma from the results of multi-satellite measurements S. Romanov
11. Spatial aliasing and distortion of energy distribution in the wave vector domain under multi-spacecraft measurements Y. Narita & K. Glassmeier
12. Estimation of the Error in the Calculation of the Pressure‐Strain Term: Application in the Terrestrial Magnetosphere O. Roberts et al.
13. Coherent transmission of upstream waves to polar latitudes through magnetotail lobes M. Regi et al.
14. Dispersion analysis of ULF waves in the foreshock using cluster data and the wave telescope technique Y. Narita et al.
15. Transient upstream mesoscale structures: drivers of solar-quiet space weather P. Kajdič et al.
16. Low‐frequency wave characteristics in the upstream and downstream regime of the terrestrial bow shock Y. Narita et al.
17. Analytical Verification of the Normal Vector Determination Methods for Planar Magnetic Structures W. Teh
18. Mode decomposition scheme for ideal magnetohydrodynamic plane waves in space‐time coordinates J. Podesta et al.
19. ON ELECTRON-SCALE WHISTLER TURBULENCE IN THE SOLAR WIND Y. Narita et al.
20. Identification of low frequency waves in the vicinity of the terrestrial bow shock M. Balikhin et al.
21. Concerning the detection of electromagnetic knot structures in space plasmas using the wave telescope technique S. Toepfer et al.
22. Observational Test for a Random Sweeping Model in Solar Wind Turbulence C. Perschke et al.
23. Reconstruction of a magnetic flux rope from THEMIS observations A. Lui et al.
24. Scalings, Cascade and Intermittency in Solar Wind Turbulence V. Carbone
25. Probing the Foreshock Wave Boundary With Single Spacecraft Techniques S. Dorfman et al.
26. Chaotic, rational and irrational oscillations of nonlinear waves in the Earth’s magnetosheath featuring bi-regularized $$\kappa$$-distributed electrons J. Sarkar & A. Saha
27. Determining EMIC Wave Vector Properties Through Multi‐Point Measurements: The Wave Curl Analysis S. Vines et al.
28. Plasma wave source location using CLUSTER as a spherical wave telescope O. Constantinescu et al.
29. Reconstruction Test of Turbulence Power Spectra in 3D Wavenumber Space with at Most 9 Virtual Spacecraft Measurements L. Zhang et al.
30. The Foreshock J. Eastwood et al.
31. Limitations of multispacecraft data techniques in measuring wave number spectra of space plasma turbulence F. Sahraoui et al.
32. Ion Bernstein waves in the magnetic reconnection region Y. Narita et al.
33. Ultra‐low‐frequency waves and associated wave vectors observed in the plasma sheet boundary layer by Cluster M. Broughton et al.
34. Magnetospheric quasi‐static response to the dynamic magnetosheath: A THEMIS case study K. Glassmeier et al.
35. The Mie representation for Mercury’s magnetic field S. Toepfer et al.
36. Doppler shift and broadening in solar wind turbulence Y. Narita et al.
37. Cluster observations of fast magnetosonic waves in the terrestrial foreshock J. Eastwood et al.
38. A phase locking mechanism for nongyrotropic electron distributions upstream of the Earth's bow shock C. Gurgiolo et al.
39. The Wave Telescope Technique Y. Narita et al.
40. The Cluster Virtual Observatory for ULF Waves O. Constantinescu et al.
41. The m-dimensional spatial Nyquist limit using the wave telescope for larger numbers of spacecraft L. Schulz et al.
42. Terrestrial and Martian space weather: A complex systems approach A. Chian et al.
43. Solitons, oscillitons, and stationary waves in a cold p − α plasma E. Dubinin et al.
44. Multipoint Observations of Magnetosheath Response to Foreshock Transients C. Cai & X. Wei
45. Method for monitoring the performance of spaceсraft payload in real time A. Shakhanov & S. Bogachev
46. Spatial structure of ion-scale plasma turbulence Y. Narita et al.
47. The Magnetosheath E. Lucek et al.
48. Troitskaya-Bolshakova effect as a manifestation of the solar wind wave turbulence A. Potapov et al.
49. Statistical survey of day-side magnetospheric current flow using Cluster observations: bow shock E. Liebert et al.
50. Application of Cold and Hot Plasma Composition Measurements to Investigate Impacts on Dusk‐Side Electromagnetic Ion Cyclotron Waves J. Lee et al.
51. Power Anisotropy, Dispersion Signature and Turbulence Diffusion Region in the 3D Wavenumber Domain of Space Plasma Turbulence R. Lin et al.
52. Four‐point Cluster application of magnetic field analysis tools: The discontinuity analyzer M. Dunlop et al.
53. Dispersion relation analysis of solar wind turbulence Y. Narita et al.
54. Three-dimensional spatial structures of solar wind turbulence from 10 000-km to 100-km scales Y. Narita et al.
55. Editorial: Improving the Understanding of Kinetic Processes in Solar Wind and Magnetosphere: From CLUSTER to Magnetospheric Multiscale Mission A. Greco et al.
56. Determination of wave vectors using the phase differencing method S. Walker & I. Moiseenko
57. The k‐filtering technique applied to wave electric and magnetic field measurements from the Cluster satellites A. Tjulin et al.
58. Possible coexistence of kinetic Alfvén and ion Bernstein modes in sub-ion scale compressive turbulence in the solar wind O. Roberts et al.
59. Review article: Wave analysis methods for space plasma experiment Y. Narita
60. Multiple harmonic ULF waves in the plasma sheet boundary layer observed by Cluster M. Engebretson et al.
61. Space–time structure and wavevector anisotropy in space plasma turbulence Y. Narita
62. Phase structure of Pc3 waves observed by Cluster and ground stations near the cusp Y. Liu et al.
63. Validation of the k-filtering technique for a signal composed of random-phase plane waves and non-random coherent structures O. Roberts et al.
64. Wave-Number Spectra and Intermittency in the Terrestrial Foreshock Region Y. Narita et al.
65. Cluster observation of magnetohydrodynamic turbulence in the plasma sheet boundary layer Y. Narita
66. Structure and evolution of flux transfer events near dayside magnetic reconnection dissipation region: MMS observations X. Dong et al.
67. Dispersion analysis of low‐frequency waves through the terrestrial bow shock Y. Narita & K. Glassmeier
68. ULF Waves Associated with Solar Wind Deceleration in the Earth's Foreshock F. Hui-Shan et al.
69. The propagation of ULF waves from the Earth's foreshock region to ground: the case study of 15 February 2009 M. Regi et al.
70. Minimum variance projection for direct measurements of power-law spectra in the wavenumber domain Y. Narita et al.
71. Electric and magnetic field observations of Pc4 and Pc5 pulsations in the inner magnetosphere: A statistical study W. Liu et al.
72. Data-driven Uncertainty Quantification of the Wave Telescope Technique: General Equations and Demonstration Using HelioSwarm T. Broeren & K. Klein
73. Wave-Vector Dependence of Magnetic-Turbulence Spectra in the Solar Wind Y. Narita et al.
74. The THEMIS Fluxgate Magnetometer H. Auster et al.
75. Cluster as current sheet surveyor in the magnetotail Y. Narita et al.
76. Multipoint observations of plasma phenomena made in space by Cluster M. Goldstein et al.
77. Lifetime estimate for plasma turbulence Y. Narita & Z. Vörös
78. Dispersion relation analysis of turbulent magnetic field fluctuations in fast solar wind C. Perschke et al.
79. Multi-spacecraft investigation of space turbulence: Lessons from Cluster and input to the Cross-Scale mission F. Sahraoui et al.
80. Mathematical foundation of Capon's method for planetary magnetic field analysis S. Toepfer et al.