Publications of Giovanni Lapenta

A list of publications authored or co-authored by Giovanni Lapenta, 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: 0000-0002-3123-4024

List of publications ordered by citations
Number of papers: 231 (refereed: 224)
No. of citations: 6810
First author papers: 59 (refereed: 57)

2026

1. Classifying solar flares with kNN on sparse autoencoder representations [0]
   Baeke, Hanne, Miloshevich, G., Dineva, E., Carella, F., Gonidakis, P., Amaya, J. & Lapenta, G., MNRAS, 546, staf2271

2025

1. Analysis of Electron Distribution Functions From the Magnetospheric Multiscale (MMS) Mission Using the Gaussian Mixture Model [0]
   Sanò, Beniamino, Maes Anno, Nathan N., Newman, David L., Goldman, Marty, Valentini, Francesco, Perrone, Denise & Lapenta, Giovanni, Journal of Geophysical Research Machine Learning and Computation, 2, 233
2. Bypassing the static input size of neural networks in flare forecasting by using spatial pyramid pooling [1]
   Vong, P., Dolla, L. R., Koukras, A., Gustin, J., Amaya, J., Dineva, E. & Lapenta, G., A&A, 695, A65

2024

1. An Exactly Energy-conserving Electromagnetic Particle-in-cell Method in Curvilinear Coordinates [8]
   Croonen, J., Pezzini, L., Bacchini, F. & Lapenta, G., ApJS, 271, 63
2. Statistical Study of Energy Transport and Conversion in Electron Diffusion Regions at Earth's Dayside Magnetopause [6]
   Fargette, Naïs., Eastwood, Jonathan P., Waters, Cara L., Øieroset, Marit, Phan, Tai D., Newman, David L., Stawarz, J. E., Goldman, Martin V. & Lapenta, Giovanni, Journal of Geophysical Research (Space Physics), 129, e2024JA032897
3. Fully Kinetic Simulations of Proton-beam-driven Instabilities from Parker Solar Probe Observations [14]
   Pezzini, L., Zhukov, A. N., Bacchini, F., Arrò, G., López, R. A., Micera, A., Innocenti, M. E. & Lapenta, G., ApJ, 975, 37
4. A Multi-Scale Particle-In-Cell Simulation of Plasma Dynamics From Magnetotail Reconnection to the Inner Magnetosphere [0]
   Rusaitis, L., El-Alaoui, M., Walker, R. J., Lapenta, G. & Schriver, D., Journal of Geophysical Research (Space Physics), 129, e2024JA032821

2023

1. Generation of Subion Scale Magnetic Holes from Electron Shear Flow Instabilities in Plasma Turbulence [13]
   Arrò, Giuseppe, Pucci, Francesco, Califano, Francesco, Innocenti, Maria Elena & Lapenta, Giovanni, ApJ, 958, 11
2. Advances in the Implementation of the Exactly Energy Conserving Semi-Implicit (ECsim) Particle-in-Cell Method [16]
   Lapenta, Giovanni, Physics, 5, 72
3. Power to the particles [0]
   Lapenta, Giovanni, Nature Physics, 19, 159

2022

1. Parametrization of Heliophysical Data Using Autoencoders [0]
   Amaya, Jorge, Jamal, Sara, Laperre, Brecht & Lapenta, Giovanni, essoar.10509952
2. Kinetic Heating by Alfvén Waves in Magnetic Shears [17]
   Bacchini, Fabio, Pucci, Francesco, Malara, Francesco & Lapenta, Giovanni, Physical Review Letters, 128, 025101
3. Interaction between electrostatic collisionless shocks generates strong magnetic fields [4]
   Boella, E., Schoeffler, K., Shukla, N., Innocenti, M. E., Lapenta, G., Fonseca, R. & Silva, L. O., New Journal of Physics, 24, 063016
4. Characteristics of Multi-scale Current Sheets in the Solar Wind at 1 au Associated with Magnetic Reconnection and the Case for a Heliospheric Current Sheet Avalanche [26]
   Eriksson, Stefan, Swisdak, Marc, Weygand, James M., Mallet, Alfred, Newman, David L., Lapenta, Giovanni, Wilson, Lynn B., III, Turner, Drew L. & Larsen, Bjorn, ApJ, 933, 181
5. Anisotropic Electron Heating in Turbulence-driven Magnetic Reconnection in the Near-Sun Solar Wind [32]
   Franci, Luca, Papini, Emanuele, Micera, Alfredo, Lapenta, Giovanni, Hellinger, Petr, Sarto, Daniele Del, Burgess, David & Landi, Simone, ApJ, 936, 27
6. Do We Need to Consider Electrons' Kinetic Effects to Properly Model a Planetary Magnetosphere: The Case of Mercury [21]
   Lapenta, Giovanni, Schriver, David, Walker, Raymond J., Berchem, Jean, Echterling, Nicole F., El Alaoui, Mostafa & Travnicek, Pavel, Journal of Geophysical Research (Space Physics), 127, e30241
7. Formation and Reconnection of Electron Scale Current Layers in the Turbulent Outflows of a Primary Reconnection Site [10]
   Lapenta, Giovanni, Goldman, Martin, Newman, David L. & Eriksson, Stefan, ApJ, 940, 187
8. Identification of high order closure terms from fully kinetic simulations using machine learning [9]
   Laperre, B., Amaya, J., Jamal, S. & Lapenta, G., Physics of Plasmas, 29, 032706
9. Mixing the Solar Wind Proton and Electron Scales. Theory and 2D-PIC Simulations of Firehose Instability [11]
   López, R. A., Micera, A., Lazar, M., Poedts, S., Lapenta, G., Zhukov, A. N., Boella, E. & Shaaban, S. M., ApJ, 930, 158
10. Tripolar guide magnetic fields due to island coalescence in solar wind current sheets: Simulation and theory [0]
    Newman, David L., Eriksson, Stefan & Lapenta, Giovanni, Physics of Plasmas, 29, 112905
11. Computational study of microdischarges driven by electron beam injection with particle-in-cell/Monte Carlo collision simulations [4]
    Wang, Yu, Zhou, Youyou, Wu, Hao, Zhang, Ya, Jiang, Wei & Lapenta, Giovanni, Journal of Applied Physics, 131, 163301
12. Broadband Electrostatic Waves near the Lower-hybrid Frequency in the Near-Sun Solar Wind Observed by the Parker Solar Probe [7]
    Zhao, Jinsong, Malaspina, David M., Dudok de Wit, T., Pierrard, Viviane, Voitenko, Yuriy, Lapenta, Giovanni, Poedts, Stefaan, Bale, Stuart D., Kasper, Justin C., Larson, Davin, Livi, Roberto & Whittlesey, Phyllis, ApJ, 938, L21
13. Numerical characterization of the breakdown process of dc-driven micro-discharges sustained by thermionic emission [11]
    Zhong, Yujie, Wu, Hao, Li, Xiandi, Gao, Jiamao, Jiang, Wei, Zhang, Ya & Lapenta, Giovanni, Journal of Physics D Applied Physics, 55, 215203
14. Numerical characterization of capacitively coupled plasmas modulated by ion beam injection [3]
    Zhou, Youyou, Wang, Yu, Wu, Hao, Zhang, Ya, Jiang, Wei & Lapenta, Giovanni, Plasma Sources Science Technology, 31, 045028

2021

1. PIC Simulations of the Dayside Magnetopause: Origins and Evolution of the Electron and Ion Populations in its Boundary Layers [0]
   Berchem, Jean, Lapenta, Giovanni, Richard, Robert, Paterson, William & Escoubet, C. Philippe, essoar.10505889
2. Multi-beam energy moments of measured compound ion velocity distributions [8]
   Goldman, M. V., Newman, D. L., Eastwood, J. P., Lapenta, G., Burch, J. L. & Giles, B., Physics of Plasmas, 28, 102305
3. Unsupervised classification of simulated magnetospheric regions [13]
   Innocenti, Maria Elena, Amaya, Jorge, Raeder, Joachim, Dupuis, Romain, Ferdousi, Banafsheh & Lapenta, Giovanni, Annales Geophysicae, 39, 861
4. Detecting Reconnection Sites Using the Lorentz Transformations for Electromagnetic Fields [13]
   Lapenta, Giovanni, ApJ, 911, 147
5. On the Role of Solar Wind Expansion as a Source of Whistler Waves: Scattering of Suprathermal Electrons and Heat Flux Regulation in the Inner Heliosphere [29]
   Micera, A., Zhukov, A. N., López, R. A., Boella, E., Tenerani, A., Velli, M., Lapenta, G. & Innocenti, M. E., ApJ, 919, 42
6. Turbulent Magnetogenesis in a Collisionless Plasma [8]
   Pucci, F., Viviani, M., Valentini, F., Lapenta, G., Matthaeus, W. H. & Servidio, S., ApJ, 922, L18

2020

1. A Fully Kinetic Perspective of Electron Acceleration around a Weakly Outgassing Comet [15]
   Divin, Andrey, Deca, Jan, Eriksson, Anders, Henri, Pierre, Lapenta, Giovanni, Olshevsky, Vyacheslav & Markidis, Stefano, ApJ, 889, L33
2. Characterizing Magnetic Reconnection Regions Using Gaussian Mixture Models on Particle Velocity Distributions [15]
   Dupuis, Romain, Goldman, Martin V., Newman, David L., Amaya, Jorge & Lapenta, Giovanni, ApJ, 889, 22
3. Multibeam Energy Moments of Multibeam Particle Velocity Distributions [13]
   Goldman, M. V., Newman, D. L., Eastwood, J. P. & Lapenta, G., Journal of Geophysical Research (Space Physics), 125, e28340
4. Local Regimes of Turbulence in 3D Magnetic Reconnection [20]
   Lapenta, G., Pucci, F., Goldman, M. V. & Newman, D. L., ApJ, 888, 104
5. Turbulent Energization of Electron Power Law Tails during Magnetic Reconnection [18]
   Lapenta, Giovanni, Berchem, Jean, Alaoui, Mostafa El & Walker, Raymond, Physical Review Letters, 125, 225101
6. Multiscale MHD-Kinetic PIC Study of Energy Fluxes Caused by Reconnection [16]
   Lapenta, Giovanni, El Alaoui, Mostafa, Berchem, Jean & Walker, Raymond, Journal of Geophysical Research (Space Physics), 125, e27276
7. Particle-in-cell Simulations of the Parallel Proton Firehose Instability Influenced by the Electron Temperature Anisotropy in Solar Wind Conditions [17]
   Micera, A., Boella, E., Zhukov, A. N., Shaaban, S. M., López, R. A., Lazar, M. & Lapenta, G., ApJ, 893, 130
8. Particle-in-cell Simulation of Whistler Heat-flux Instabilities in the Solar Wind: Heat-flux Regulation and Electron Halo Formation [48]
   Micera, A., Zhukov, A. N., López, R. A., Innocenti, M. E., Lazar, M., Boella, E. & Lapenta, G., ApJ, 903, L23

2019

1. Inner and outer electron diffusion region of antiparallel collisionless reconnection: Density dependence [7]
   Divin, A., Semenov, V., Zaitsev, I., Korovinskiy, D., Deca, J., Lapenta, G., Olshevsky, V. & Markidis, S., Physics of Plasmas, 26, 102305
2. ECsim-CYL: Energy Conserving Semi-Implicit particle in cell simulation in axially symmetric cylindrical coordinates [17]
   Gonzalez-Herrero, Diego, Micera, Alfredo, Boella, Elisabetta, Park, Jaeyoung & Lapenta, Giovanni, Computer Physics Communications, 236, 153
3. Particle-in-cell Simulations of the Whistler Heat-flux Instability in Solar Wind Conditions [26]
   López, R. A., Shaaban, S. M., Lazar, M., Poedts, S., Yoon, P. H., Micera, A. & Lapenta, G., ApJ, 882, L8
4. Observations of an Electron Diffusion Region in Symmetric Reconnection with Weak Guide Field [104]
   Zhou, M., Deng, X. H., Zhong, Z. H., Pang, Y., Tang, R. X., El-Alaoui, M., Walker, R. J., Russell, C. T., Lapenta, G., Strangeway, R. J., Torbert, R. B., Burch, J. L., Paterson, W. R., Giles, B. L., Khotyaintsev, Y. V., Ergun, R. E. & Lindqvist, P.-A., ApJ, 870, 34

2018

1. First Detection of Solar Flare Emission in Mid-ultraviolet Balmer Continuum [29]
   Dominique, Marie, Zhukov, Andrei N., Heinzel, Petr, Dammasch, Ingolf E., Wauters, Laurence, Dolla, Laurent, Shestov, Sergei, Kretzschmar, Matthieu, Machol, Janet, Lapenta, Giovanni & Schmutz, Werner, ApJ, 867, L24
2. Study of magnetic reconnection in large-scale magnetic island coalescence via spatially coupled MHD and PIC simulations [18]
   Makwana, Kirit D., Keppens, Rony & Lapenta, Giovanni, Physics of Plasmas, 25, 082904
3. Properties of Decaying Plasma Turbulence at Subproton Scales [10]
   Olshevsky, Vyacheslav, Servidio, Sergio, Pucci, Francesco, Primavera, Leonardo & Lapenta, Giovanni, ApJ, 860, 11
4. Generation of Turbulence in Colliding Reconnection Jets [29]
   Pucci, Francesco, Matthaeus, William H., Chasapis, A., Servidio, Sergio, Sorriso-Valvo, L., Olshevsky, V., Newman, D. L., Goldman, M. V. & Lapenta, Giovanni, ApJ, 867, 10
5. A Comprehensive Comparison of Relativistic Particle Integrators [82]
   Ripperda, B., Bacchini, F., Teunissen, J., Xia, C., Porth, O., Sironi, L., Lapenta, G. & Keppens, R., ApJS, 235, 21
6. Structure and Dynamics of Three-Dimensional Magnetotail Reconnection [7]
   Walker, Raymond J., Lapenta, Giovanni, Liang, Haoming, Berchem, Jean, El-Alaoui, Mostafa & Goldstein, Melvyn L., Journal of Geophysical Research (Space Physics), 123, 8241
7. Magnetospheric Multiscale Observations of an Ion Diffusion Region With Large Guide Field at the Magnetopause: Current System, Electron Heating, and Plasma Waves [43]
   Zhou, M., Berchem, J., Walker, R. J., El-Alaoui, M., Goldstein, M. L., Lapenta, G., Deng, X., Li, J., Le Contel, O., Graham, D. B., Lavraud, B., Paterson, W. R., Giles, B. L., Burch, J. L., Torbert, R. B., Russell, C. T., Strangeway, R. J., Zhao, C., Ergun, R. E., Lindqvist, P.-A. & Marklund, G., Journal of Geophysical Research (Space Physics), 123, 1834
8. Suprathermal Electron Acceleration in a Reconnecting Magnetotail: Large-Scale Kinetic Simulation [40]
   Zhou, Meng, El-Alaoui, Mostafa, Lapenta, Giovanni, Berchem, Jean, Richard, Robert L., Schriver, David & Walker, Raymond J., Journal of Geophysical Research (Space Physics), 123, 8087

2017

1. A new Particle-in-Cell method for modeling magnetized fluids [5]
   Bacchini, Fabio, Olshevsky, Vyacheslav, Poedts, Stefaan & Lapenta, Giovanni, Computer Physics Communications, 210, 79
2. Switch-off slow shock/rotational discontinuity structures in collisionless magnetic reconnection: What to look for in satellite observations [8]
   Innocenti, M. E., Cazzola, E., Mistry, R., Eastwood, J. P., Goldman, M. V., Newman, D. L., Markidis, S. & Lapenta, G., Geophysical Research Letters, 44, 3447
3. On the origin of the crescent-shaped distributions observed by MMS at the magnetopause [49]
   Lapenta, G., Berchem, J., Zhou, M., Walker, R. J., El-Alaoui, M., Goldstein, M. L., Paterson, W. R., Giles, B. L., Pollock, C. J., Russell, C. T., Strangeway, R. J., Ergun, R. E., Khotyaintsev, Y. V., Torbert, R. B. & Burch, J. L., Journal of Geophysical Research (Space Physics), 122, 2024
4. Energy exchanges in reconnection outflows [16]
   Lapenta, Giovanni, Goldman, Martin V., Newman, David L. & Markidis, Stefano, Plasma Physics and Controlled Fusion, 59, 014019
5. Exactly energy conserving semi-implicit particle in cell formulation [104]
   Lapenta, Giovanni, Journal of Computational Physics, 334, 349
6. Oxygen acceleration in magnetotail reconnection [26]
   Liang, Haoming, Lapenta, Giovanni, Walker, Raymond J., Schriver, David, El-Alaoui, Mostafa & Berchem, Jean, Journal of Geophysical Research (Space Physics), 122, 618
7. Properties of Turbulence in the Reconnection Exhaust: Numerical Simulations Compared with Observations [51]
   Pucci, F., Servidio, S., Sorriso-Valvo, L., Olshevsky, V., Matthaeus, W. H., Malara, F., Goldman, M. V., Newman, D. L. & Lapenta, G., ApJ, 841, 60
8. Mesh-free Hamiltonian implementation of two dimensional Darwin model [1]
   Siddi, Lorenzo, Lapenta, Giovanni & Gibbon, Paul, Physics of Plasmas, 24, 082103
9. Observation of Three-Dimensional Magnetic Reconnection in the Terrestrial Magnetotail [27]
   Zhou, Meng, Ashour-Abdalla, Maha, Deng, Xiaohua, Pang, Ye, Fu, Huishan, Walker, Raymond, Lapenta, Giovanni, Huang, Shiyong, Xu, Xiaojun & Tang, Rongxin, Journal of Geophysical Research (Space Physics), 122, 9513

2016

1. Slow Solar Wind: Observations and Modeling [237]
   Abbo, L., Ofman, L., Antiochos, S. K., Hansteen, V. H., Harra, L., Ko, Y.-K., Lapenta, G., Li, B., Riley, P., Strachan, L., von Steiger, R. & Wang, Y.-M., Space Science Reviews, 201, 55
2. Identifying the electron diffusion region in a realistic simulation of Earth's magnetotail [13]
   Ashour-Abdalla, Maha, Lapenta, Giovanni, Walker, Raymond, El-Alaoui, Mostafa, Liang, Haoming, Zhou, Meng, Berchem, Jean & Goldstein, Melvyn L., Geophysical Research Letters, 43, 6005
3. On the ions acceleration via collisionless magnetic reconnection in laboratory plasmas [8]
   Cazzola, E., Curreli, D., Markidis, S. & Lapenta, G., Physics of Plasmas, 23, 112108
4. On the electron agyrotropy during rapid asymmetric magnetic island coalescence in presence of a guide field [13]
   Cazzola, E., Innocenti, M. E., Goldman, M. V., Newman, D. L., Markidis, S. & Lapenta, G., Geophysical Research Letters, 43, 7840
5. Web-based description of the space radiation environment using the Bethe-Bloch model [1]
   Cazzola, Emanuele, Calders, Stijn & Lapenta, Giovanni, European Journal of Physics, 37, 015605
6. Three-dimensional full-kinetic simulation of the solar wind interaction with a vertical dipolar lunar magnetic anomaly [9]
   Deca, Jan, Divin, Andrey, Wang, Xu, Lembège, Bertrand, Markidis, Stefano, Horányi, Mihály & Lapenta, Giovanni, Geophysical Research Letters, 43, 4136
7. Three-scale structure of diffusion region in the presence of cold ions [35]
   Divin, A., Khotyaintsev, Yu. V., Vaivads, A., André, M., Toledo-Redondo, S., Markidis, S. & Lapenta, G., Journal of Geophysical Research (Space Physics), 121, 12,001
8. A new model for the electron pressure nongyrotropy in the outer electron diffusion region [8]
   Divin, A., Semenov, V., Korovinskiy, D., Markidis, S., Deca, J., Olshevsky, V. & Lapenta, G., Geophysical Research Letters, 43, 10,565
9. Magnetospheric Multiscale Satellites Observations of Parallel Electric Fields Associated with Magnetic Reconnection [69]
   Ergun, R. E., Goodrich, K. A., Wilder, F. D., Holmes, J. C., Stawarz, J. E., Eriksson, S., Sturner, A. P., Malaspina, D. M., Usanova, M. E., Torbert, R. B., Lindqvist, P.-A., Khotyaintsev, Y., Burch, J. L., Strangeway, R. J., Russell, C. T., Pollock, C. J., Giles, B. L., Hesse, M., Chen, L. J., Lapenta, G., Goldman, M. V., Newman, D. L., Schwartz, S. J., Eastwood, J. P., Phan, T. D., Mozer, F. S., Drake, J., Shay, M. A., Cassak, P. A., Nakamura, R. & Marklund, G., Physical Review Letters, 116, 235102
10. What Can We Learn about Magnetotail Reconnection from 2D PIC Harris-Sheet Simulations? [67]
    Goldman, M. V., Newman, D. L. & Lapenta, G., Space Science Reviews, 199, 651
11. Study of electric and magnetic field fluctuations from lower hybrid drift instability waves in the terrestrial magnetotail with the fully kinetic, semi-implicit, adaptive multi level multi domain method [11]
    Innocenti, M. E., Norgren, C., Newman, D., Goldman, M., Markidis, S. & Lapenta, G., Physics of Plasmas, 23, 052902
12. Grid coupling mechanism in the semi-implicit adaptive Multi-Level Multi-Domain method [1]
    Innocenti, M. E., Tronci, C., Markidis, S. & Lapenta, G., Journal of Physics Conference Series, Journal of Physics Conference Series, 719, p. 012019
13. Momentum conservation in Multi-Level Multi-Domain (MLMD) simulations [5]
    Innocenti, M. E., Beck, A., Markidis, S. & Lapenta, G., Journal of Computational Physics, 312, 14
14. Numerical modeling of tokamak breakdown phase driven by pure Ohmic heating under ideal conditions [28]
    Jiang, Wei, Peng, Yanli, Zhang, Ya & Lapenta, Giovanni, Nuclear Fusion, 56, 126017
15. Where should MMS look for electron diffusion regions? [0]
    Lapenta, G., Goldman, M., Newman, D. & Markidis, S., Journal of Physics Conference Series, Journal of Physics Conference Series, 719, p. 012011
16. A multiscale study of ion heating in Earth's magnetotail [17]
    Lapenta, Giovanni, Ashour-Abdalla, Maha, Walker, Raymond J. & El Alaoui, Mostafa, Geophysical Research Letters, 43, 515
17. Oxygen impacts on dipolarization fronts and reconnection rate [24]
    Liang, Haoming, Ashour-Abdalla, Maha, Lapenta, Giovanni & Walker, Raymond J., Journal of Geophysical Research (Space Physics), 121, 1148
18. Magnetic Null Points in Kinetic Simulations of Space Plasmas [32]
    Olshevsky, Vyacheslav, Deca, Jan, Divin, Andrey, Peng, Ivy Bo, Markidis, Stefano, Innocenti, Maria Elena, Cazzola, Emanuele & Lapenta, Giovanni, ApJ, 819, 52
19. Particle-in-cell and Monte Carlo collision simulations of the cathode sheath in an atmospheric direct-current arc discharge [17]
    Zhou, Wen, Guo, Heng, Jiang, Wei, Li, He-Ping, Li, Zeng-Yao & Lapenta, Giovanni, Plasma Sources Science Technology, 25, 05LT01

2015

1. Multiscale study of electron energization during unsteady reconnection events [29]
   Ashour-Abdalla, Maha, Lapenta, Giovanni, Walker, Raymond J., El-Alaoui, Mostafa & Liang, Haoming, Journal of Geophysical Research (Space Physics), 120, 4784
2. Plasma Physical Parameters along CME-driven Shocks. II. Observation-Simulation Comparison [9]
   Bacchini, F., Susino, R., Bemporad, A. & Lapenta, G., ApJ, 809, 58
3. On the electron dynamics during island coalescence in asymmetric magnetic reconnection [12]
   Cazzola, E., Innocenti, M. E., Markidis, S., Goldman, M. V., Newman, D. L. & Lapenta, G., Physics of Plasmas, 22, 092901
4. General mechanism and dynamics of the solar wind interaction with lunar magnetic anomalies from 3-D particle-in-cell simulations [45]
   Deca, Jan, Divin, Andrey, Lembège, Bertrand, Horányi, Mihály, Markidis, Stefano & Lapenta, Giovanni, Journal of Geophysical Research (Space Physics), 120, 6443
5. Evolution of the lower hybrid drift instability at reconnection jet front [79]
   Divin, A., Khotyaintsev, Yu. V., Vaivads, A., André, M., Markidis, S. & Lapenta, G., Journal of Geophysical Research (Space Physics), 120, 2675
6. Ion reflection and acceleration near magnetotail dipolarization fronts associated with magnetic reconnection [67]
   Eastwood, J. P., Goldman, M. V., Hietala, H., Newman, D. L., Mistry, R. & Lapenta, G., Journal of Geophysical Research (Space Physics), 120, 511
7. On Multiple Reconnection X-lines and Tripolar Perturbations of Strong Guide Magnetic Fields [20]
   Eriksson, S., Lapenta, G., Newman, D. L., Phan, T. D., Gosling, J. T., Lavraud, B., Khotyaintsev, Yu. V., Carr, C. M., Markidis, S. & Goldman, M. V., ApJ, 805, 43
8. How to find magnetic nulls and reconstruct field topology with MMS data? [129]
   Fu, H. S., Vaivads, A., Khotyaintsev, Y. V., Olshevsky, V., André, M., Cao, J. B., Huang, S. Y., Retinò, A. & Lapenta, G., Journal of Geophysical Research (Space Physics), 120, 3758
9. Evidence of Magnetic Field Switch-off in Collisionless Magnetic Reconnection [38]
   Innocenti, M. E., Goldman, M., Newman, D., Markidis, S. & Lapenta, G., ApJ, 810, L19
10. Introduction of temporal sub-stepping in the Multi-Level Multi-Domain semi-implicit Particle-In-Cell code Parsek2D-MLMD [16]
    Innocenti, M. E., Beck, A., Ponweiser, T., Markidis, S. & Lapenta, G., Computer Physics Communications, 189, 47
11. The double-gradient magnetic instability: Stabilizing effect of the guide field [10]
    Korovinskiy, D. B., Divin, A. V., Erkaev, N. V., Semenov, V. S., Artemyev, A. V., Ivanova, V. V., Ivanov, I. B., Lapenta, G., Markidis, S. & Biernat, H. K., Physics of Plasmas, 22, 012904
12. Separatrices: The crux of reconnection [26]
    Lapenta, Giovanni, Markidis, Stefano, Divin, Andrey, Newman, David & Goldman, Martin, Journal of Plasma Physics, 81, 325810109
13. Secondary reconnection sites in reconnection-generated flux ropes and reconnection fronts [85]
    Lapenta, Giovanni, Markidis, Stefano, Goldman, Martin V. & Newman, David L., Nature Physics, 11, 690
14. Energy Dissipation in Magnetic Null Points at Kinetic Scales [34]
    Olshevsky, Vyacheslav, Divin, Andrey, Eriksson, Elin, Markidis, Stefano & Lapenta, Giovanni, ApJ, 807, 155
15. Role of Z-pinches in magnetic reconnection in space plasmas [3]
    Olshevsky, Vyacheslav, Lapenta, Giovanni, Markidis, Stefano & Divin, Andrey, Journal of Plasma Physics, 81, 325810105
16. High-Energy Electron Confinement in a Magnetic Cusp Configuration [24]
    Park, Jaeyoung, Krall, Nicholas A., Sieck, Paul E., Offermann, Dustin T., Skillicorn, Michael, Sanchez, Andrew, Davis, Kevin, Alderson, Eric & Lapenta, Giovanni, Physical Review X, 5, 021024
17. Energetic particles in magnetotail reconnection [3]
    Peng, Ivy Bo, Vencels, Juris, Lapenta, Giovanni, Divin, Andrey, Vaivads, Andris, Laure, Erwin & Markidis, Stefano, Journal of Plasma Physics, 81, 325810202
18. Kinetic structures of quasi-perpendicular shocks in global particle-in-cell simulations [9]
    Peng, Ivy Bo, Markidis, Stefano, Laure, Erwin, Johlander, Andreas, Vaivads, Andris, Khotyaintsev, Yuri, Henri, Pierre & Lapenta, Giovanni, Physics of Plasmas, 22, 092109
19. Coronal Heating & Solar Wind Acceleration by Drift Waves [0]
    Poedts, S., Kanella, Ch & Lapenta, G., Journal of Physics Conference Series, Journal of Physics Conference Series, 642, p. 012021
20. Understanding space weather to shield society: A global road map for 2015-2025 commissioned by COSPAR and ILWS [292]
    Schrijver, Carolus J., Kauristie, Kirsti, Aylward, Alan D., Denardini, Clezio M., Gibson, Sarah E., Glover, Alexi, Gopalswamy, Nat, Grande, Manuel, Hapgood, Mike, Heynderickx, Daniel, Jakowski, Norbert, Kalegaev, Vladimir V., Lapenta, Giovanni, Linker, Jon A., Liu, Siqing, Mandrini, Cristina H., Mann, Ian R., Nagatsuma, Tsutomu, Nandy, Dibyendu, Obara, Takahiro, Paul O'Brien, T., Onsager, Terrance, Opgenoorth, Hermann J., Terkildsen, Michael, Valladares, Cesar E. & Vilmer, Nicole, Advances in Space Research, 55, 2745

2014

1. Multi-level multi-domain algorithm implementation for two-dimensional multiscale particle in cell simulations [13]
   Beck, A., Innocenti, M. E., Lapenta, G. & Markidis, S., Journal of Computational Physics, 271, 430
2. Plasma Physical Parameters along Coronal-mass-ejection-driven Shocks. I. Ultraviolet and White-light Observations [34]
   Bemporad, A., Susino, R. & Lapenta, G., ApJ, 784, 102
3. Two-way coupling of a global Hall magnetohydrodynamics model with a local implicit particle-in-cell model [133]
   Daldorff, Lars K. S., Tóth, Gábor, Gombosi, Tamas I., Lapenta, Giovanni, Amaya, Jorge, Markidis, Stefano & Brackbill, Jeremiah U., Journal of Computational Physics, 268, 236
4. Electromagnetic Particle-in-Cell Simulations of the Solar Wind Interaction with Lunar Magnetic Anomalies [43]
   Deca, J., Divin, A., Lapenta, G., Lembège, B., Markidis, S. & Horányi, M., Physical Review Letters, 112, 151102
5. On the signatures of magnetic islands and multiple X-lines in the solar wind as observed by ARTEMIS and WIND [39]
   Eriksson, S., Newman, D. L., Lapenta, G. & Angelopoulos, V., Plasma Physics and Controlled Fusion, 56, 064008
6. Čerenkov Emission of Quasiparallel Whistlers by Fast Electron Phase-Space Holes during Magnetic Reconnection [58]
   Goldman, M. V., Newman, D. L., Lapenta, G., Andersson, L., Gosling, J. T., Eriksson, S., Markidis, S., Eastwood, J. P. & Ergun, R., Physical Review Letters, 112, 145002
7. Electromagnetic energy conversion in downstream fronts from three dimensional kinetic reconnectiona) [56]
   Lapenta, Giovanni, Goldman, Martin, Newman, David, Markidis, Stefano & Divin, Andrey, Physics of Plasmas, 21, 055702
8. Cross-comparison of spacecraft-environment interaction model predictions applied to Solar Probe Plus near perihelion [22]
   Marchand, R., Miyake, Y., Usui, H., Deca, J., Lapenta, G., Matéo-Vélez, J. C., Ergun, R. E., Sturner, A., Génot, V., Hilgers, A. & Markidis, S., Physics of Plasmas, 21, 062901
9. Signatures of secondary collisionless magnetic reconnection driven by kink instability of a flux rope [13]
   Markidis, S., Lapenta, G., Delzanno, G. L., Henri, P., Goldman, M. V., Newman, D. L., Intrator, T. & Laure, E., Plasma Physics and Controlled Fusion, 56, 064010
10. The Fluid-Kinetic Particle-in-Cell method for plasma simulations [28]
    Markidis, Stefano, Henri, Pierre, Lapenta, Giovanni, Rönnmark, Kjell, Hamrin, Maria, Meliani, Zakaria & Laure, Erwin, Journal of Computational Physics, 271, 415
11. FLIP-MHD-based model sensitivity analysis [2]
    Skandrani, C., Innocenti, M. E., Bettarini, L., Crespon, F., Lamouroux, J. & Lapenta, G., Nonlinear Processes in Geophysics, 21, 539

2013

1. Spacecraft charging analysis with the implicit particle-in-cell code iPic3D [16]
   Deca, J., Lapenta, G., Marchand, R. & Markidis, S., Physics of Plasmas, 20, 102902
2. Nonlinear evolution of the magnetized Kelvin-Helmholtz instability: From fluid to kinetic modeling [52]
   Henri, P., Cerri, S. S., Califano, F., Pegoraro, F., Rossi, C., Faganello, M., Šebek, O., Trávníček, P. M., Hellinger, P., Frederiksen, J. T., Nordlund, A., Markidis, S., Keppens, R. & Lapenta, G., Physics of Plasmas, 20, 102118
3. A Multi Level Multi Domain Method for Particle In Cell plasma simulations [42]
   Innocenti, M. E., Lapenta, G., Markidis, S., Beck, A. & Vapirev, A., Journal of Computational Physics, 238, 115
4. Resistive magnetohydrodynamic reconnection: Resolving long-term, chaotic dynamics [20]
   Keppens, R., Porth, O., Galsgaard, K., Frederiksen, J. T., Restante, A. L., Lapenta, G. & Parnell, C., Physics of Plasmas, 20, 092109
5. MHD modeling of the double-gradient (kink) magnetic instability [26]
   Korovinskiy, D. B., Divin, A., Erkaev, N. V., Ivanova, V. V., Ivanov, I. B., Semenov, V. S., Lapenta, G., Markidis, S., Biernat, H. K. & Zellinger, M., Journal of Geophysical Research (Space Physics), 118, 1146
6. Space Weather Prediction and Exascale Computing [5]
   Lapenta, Giovanni, Markidis, Stefano, Poedts, Stefaan & Vucinic, Dean, Computing in Science and Engineering, 15, 68
7. Propagation speed of rotation signals for field lines undergoing magnetic reconnection [12]
   Lapenta, Giovanni, Goldman, Martin, Newman, David & Markidis, Stefano, Physics of Plasmas, 20, 102113
8. SWIFF: Space weather integrated forecasting framework [21]
   Lapenta, Giovanni, Pierrard, Viviane, Keppens, Rony, Markidis, Stefano, Poedts, Stefaan, Šebek, Ondřej, Trávníček, Pavel M., Henri, Pierre, Califano, Francesco, Pegoraro, Francesco, Faganello, Matteo, Olshevsky, Vyacheslav, Restante, Anna Lisa, Nordlund, Åke, Trier Frederiksen, Jacob, Mackay, Duncan H., Parnell, Clare E., Bemporad, Alessandro, Susino, Roberto & Borremans, Kris, Journal of Space Weather and Space Climate, 3, A05
9. Energetics of Kinetic Reconnection in a Three-Dimensional Null-Point Cluster [30]
   Olshevsky, V., Lapenta, G. & Markidis, S., Physical Review Letters, 111, 045002
10. Formation of a transient front structure near reconnection point in 3-D PIC simulations [65]
    Vapirev, A. E., Lapenta, G., Divin, A., Markidis, S., Henri, P., Goldman, M. & Newman, D., Journal of Geophysical Research (Space Physics), 118, 1435

2012

1. Numerical simulations of separatrix instabilities in collisionless magnetic reconnection [53]
   Divin, A., Lapenta, G., Markidis, S., Newman, D. L. & Goldman, M. V., Physics of Plasmas, 19, 042110
2. Scaling of the inner electron diffusion region in collisionless magnetic reconnection [17]
   Divin, A., Lapenta, G., Markidis, S., Semenov, V. S., Erkaev, N. V., Korovinskiy, D. B. & Biernat, H. K., Journal of Geophysical Research (Space Physics), 117, A06217
3. Achieving fast reconnection in resistive MHD models via turbulent means [24]
   Lapenta, G. & Lazarian, A., Nonlinear Processes in Geophysics, 19, 251
4. Physics-based modelling of the life cycle of energy in the solar system [0]
   Lapenta, G., EAS Publications Series (Editors: Stehlé, C., Joblin, C. & d'Hendecourt, L.), EAS Publications Series, 58, p. 83
5. Particle simulations of space weather [99]
   Lapenta, Giovanni, Journal of Computational Physics, 231, 795
6. Three dimensional density cavities in guide field collisionless magnetic reconnection [18]
   Markidis, S., Lapenta, G., Divin, A., Goldman, M., Newman, D. & Andersson, L., Physics of Plasmas, 19, 032119
7. Collisionless magnetic reconnection in a plasmoid chain [34]
   Markidis, S., Henri, P., Lapenta, G., Divin, A., Goldman, M. V., Newman, D. & Eriksson, S., Nonlinear Processes in Geophysics, 19, 145

2011

1. 3D turbulent reconnection driven current-sheet dynamics: solar applications [0]
   Bettarini, Lapo & Lapenta, Giovanni, Advances in Plasma Astrophysics (Editors: Bonanno, Alfio, de Gouveia Dal Pino, Elisabete & Kosovichev, Alexander G.), IAU Symposium, 274, p. 458
2. Investigation of dynamics of self-similarly evolving magnetic clouds [6]
   Dalakishvili, G., Rogava, A., Lapenta, G. & Poedts, S., A&A, 526, A22
3. Jet Deflection by Very Weak Guide Fields during Magnetic Reconnection [57]
   Goldman, M. V., Lapenta, G., Newman, D. L., Markidis, S. & Che, H., Physical Review Letters, 107, 135001
4. Electron streams formation and secondary two stream instability onset in the post-saturation regime of the classical Weibel instability [12]
   Innocenti, M. E., Lazar, M., Markidis, S., Lapenta, G. & Poedts, S., Physics of Plasmas, 18, 052104
5. Improved forecasts of solar wind parameters using the Kalman filter [10]
   Innocenti, M. E., Lapenta, G., VršNak, B., Crespon, F., Skandrani, C., Temmer, M., Veronig, A., Bettarini, L., Markidis, S. & Skender, M., Space Weather, 9, S10005
6. Measurement of the Electric Current in a kpc-scale Jet [29]
   Kronberg, P. P., Lovelace, R. V. E., Lapenta, G. & Colgate, S. A., ApJ, 741, L15
7. Bipolar electric field signatures of reconnection separatrices for a hydrogen plasma at realistic guide fields [51]
   Lapenta, G., Markidis, S., Divin, A., Goldman, M. V. & Newman, D. L., Geophysical Research Letters, 38, L17104
8. Spontaneous transition to a fast 3D turbulent reconnection regime [24]
   Lapenta, G. & Bettarini, L., EPL (Europhysics Letters), 93, 65001
9. Particle acceleration and energy conservation in particle in cell simulations [41]
   Lapenta, Giovanni & Markidis, Stefano, Physics of Plasmas, 18, 072101
10. Self-consistent seeding of the interchange instability in dipolarization fronts [43]
    Lapenta, Giovanni & Bettarini, Lapo, Geophysical Research Letters, 38, L11102
11. DEMOCRITUS: An adaptive particle in cell (PIC) code for object-plasma interactions [19]
    Lapenta, Giovanni, Journal of Computational Physics, 230, 4679
12. Kinetic simulations of magnetic reconnection in presence of a background O⁺ population [38]
    Markidis, S., Lapenta, G., Bettarini, L., Goldman, M., Newman, D. & Andersson, L., Journal of Geophysical Research (Space Physics), 116, A00K16
13. The energy conserving particle-in-cell method [167]
    Markidis, Stefano & Lapenta, Giovanni, Journal of Computational Physics, 230, 7037
14. Multiphase and multiphysics particle in cell simulation of soot deposition inside a diesel particulate filter single channel [2]
    Zuccaro, G., Lapenta, G., Ferrero, F. & Maizza, G., Computer Physics Communications, 182, 347

2010

1. Spontaneous non-steady magnetic reconnection within the solar environment [14]
   Bettarini, L. & Lapenta, G., A&A, 518, A57
2. Analysis of the energy release for different magnetic reconnection dynamics within the solar environment [1]
   Bettarini, Lapo & Lapenta, Giovanni, 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. 60
3. Model of electron pressure anisotropy in the electron diffusion region of collisionless magnetic reconnection [41]
   Divin, A., Markidis, S., Lapenta, G., Semenov, V. S., Erkaev, N. V. & Biernat, H. K., Physics of Plasmas, 17, 122102
4. Measurements of velocity shear and ion viscosity profile in a magnetohydrodynamic plasma jet [10]
   Dorf, L. A., Intrator, T., Sun, X., Hendryx, J., Wurden, G. A., Furno, I. & Lapenta, G., Physics of Plasmas, 17, 102101
5. Scales of guide field reconnection at the hydrogen mass ratio [75]
   Lapenta, G., Markidis, S., Divin, A., Goldman, M. & Newman, D., Physics of Plasmas, 17, 082106
6. On the instability of a quasiequilibrium current sheet and the onset of impulsive bursty reconnection [27]
   Skender, Marina & Lapenta, Giovanni, Physics of Plasmas, 17, 022905
7. Flux Rope Dynamics: Experimental Study of Bouncing and Merging [24]
   Sun, X., Intrator, T. P., Dorf, L., Sears, J., Furno, I. & Lapenta, G., Physical Review Letters, 105, 255001

2009

1. Experimental onset threshold and magnetic pressure pile-up for 3D reconnection [61]
   Intrator, T. P., Sun, X., Lapenta, G., Dorf, L. & Furno, I., Nature Physics, 5, 521
2. Large-scale momentum exchange by microinstabilities: a process happening in laboratory and space plasmas [1]
   Lapenta, Giovanni, Physica Scripta, 80, 035507
3. Computer experiments on the relaxation of collisionless plasmas [12]
   Lapenta, Giovanni, Markidis, Stefano & Kaniadakis, Giorgio, Journal of Statistical Mechanics: Theory and Experiment, 2009, 02024
4. Response to ``Comment on `Electron collection by a negatively charged sphere in a collisionless magnetoplasma' '' [Phys. Plasmas 16, 014701 (2009)] [0]
   Patacchini, L., Hutchinson, I. H. & Lapenta, G., Physics of Plasmas, 16, 014702

2008

1. An optimal robust equidistribution method for two-dimensional grid adaptation based on Monge Kantorovich optimization [44]
   Delzanno, G. L., Chacón, L., Finn, J. M., Chung, Y. & Lapenta, G., Journal of Computational Physics, 227, 9841
2. A three dimensional probe positionera) [5]
   Intrator, T., Sun, X., Dorf, L., Furno, I. & Lapenta, G., Review of Scientific Instruments, 79, 10F129
3. Self-Feeding Turbulent Magnetic Reconnection on Macroscopic Scales [171]
   Lapenta, Giovanni, Physical Review Letters, 100, 235001
4. Coupled dynamics in the physics of molten salt reactors [11]
   Nicolino, Claudio, Lapenta, Giovanni, Dulla, Sandra & Ravetto, Piero, Annals of Nuclear Energy, 35, 314
5. Dynamic nature of the ion wake in dusty plasmas [5]
   Rovagnati, Beniamino, Lapenta, Giovanni & Mashayek, Farzad, Physics Letters A, 372, 5991
6. Transition of MHD Kink-Stability Properties between Line-Tied and Non-Line-Tied Boundary Conditions [19]
   Sun, X., Intrator, T. P., Dorf, L., Furno, I. & Lapenta, G., Physical Review Letters, 100, 205004
7. Micro-Macro Coupling in Plasma Self-Organization Processes during Island Coalescence [13]
   Wan, Weigang & Lapenta, Giovanni, Physical Review Letters, 100, 035004
8. Evolutions of non-steady-state magnetic reconnection [24]
   Wan, Weigang & Lapenta, Giovanni, Physics of Plasmas, 15, 102302
9. Electron acceleration during guide field magnetic reconnection [29]
   Wan, Weigang, Lapenta, Giovanni, Delzanno, Gian Luca & Egedal, Jan, Physics of Plasmas, 15, 032903
10. Electron Self-Reinforcing Process of Magnetic Reconnection [16]
    Wan, Weigang & Lapenta, Giovanni, Physical Review Letters, 101, 015001

2007

1. Dusty Plasmas in Colonial Williamsburg [0]
   Amatucci, William E., Scales, Wayne, Thomas, Edward & Lapenta, Giovanni, IEEE Transactions on Plasma Science, 35, 253
2. Space charge neutralization in inertial electrostatic confinement plasmas [16]
   Evstatiev, E. G., Nebel, R. A., Chacón, L., Park, J. & Lapenta, G., Physics of Plasmas, 14, 042701
3. Effects of boundary conditions and flow on the kink instability in a cylindrical plasma column [34]
   Furno, I., Intrator, T. P., Lapenta, G., Dorf, L., Abbate, S. & Ryutov, D. D., Physics of Plasmas, 14, 022103
4. Momentum creation by drift instabilities in space and laboratory plasmas [5]
   Innocenti, Maria Elena & Lapenta, Giovanni, Plasma Physics and Controlled Fusion, 49, B521
5. Long-lifetime current-driven rotating kink modes in a non-line-tied plasma column with a free end [22]
   Intrator, T. P., Furno, I., Ryutov, D. D., Lapenta, G., Dorf, L. & Sun, X., Journal of Geophysical Research (Space Physics), 112, A05S90
6. Relaxation of Relativistic Plasmas Under the Effect of Wave-Particle Interactions [63]
   Lapenta, Giovanni, Markidis, Stefano, Marocchino, Alberto & Kaniadakis, Giorgio, ApJ, 666, 949
7. Study of current intensification by compression in the Earth magnetotail [6]
   Lapenta, Giovanni & King, Joshua, Journal of Geophysical Research (Space Physics), 112, A12204
8. Formulation of the relativistic moment implicit particle-in-cell method [18]
   Noguchi, Koichi, Tronci, Cesare, Zuccaro, Gianluca & Lapenta, Giovanni, Physics of Plasmas, 14, 042308
9. Electron collection by a negatively charged sphere in a collisionless magnetoplasma [27]
   Patacchini, L., Hutchinson, I. H. & Lapenta, G., Physics of Plasmas, 14, 062111
10. Effect of collisions on dust particle charging via particle-in-cell Monte-Carlo collision [15]
    Rovagnati, B., Davoudabadi, M., Lapenta, G. & Mashayek, F., Journal of Applied Physics, 102, 073302-073302-9

2006

1. New approach for the study of linear Vlasov stability of inhomogeneous systems [20]
   Camporeale, Enrico, Delzanno, Gian Luca, Lapenta, Giovanni & Daughton, William, Physics of Plasmas, 13, 092110
2. A fully implicit, nonlinear adaptive grid strategy [8]
   Chacón, L. & Lapenta, G., Journal of Computational Physics, 212, 703
3. Current-Driven Rotating-Kink Mode in a Plasma Column with a Non-Line-Tied Free End [49]
   Furno, I., Intrator, T. P., Ryutov, D. D., Abbate, S., Madziwa-Nussinov, T., Light, A., Dorf, L. & Lapenta, G., Physical Review Letters, 97, 015002
4. Kink instability of flux ropes anchored at one end and free at the other [24]
   Lapenta, Giovanni, Furno, Ivo, Intrator, Thomas & Delzanno, Gian Luca, Journal of Geophysical Research (Space Physics), 111, A12S06
5. Kinetic approach to microscopic-macroscopic coupling in space and laboratory plasmasa) [104]
   Lapenta, Giovanni, Brackbill, J. U. & Ricci, Paolo, Physics of Plasmas, 13, 055904
6. Cost-effectiveness of fully implicit moving mesh adaptation: A practical investigation in 1D [8]
   Lapenta, Giovanni & Chacón, Luis, Journal of Computational Physics, 219, 86
7. Kinetic simulations of x-line expansion in 3D reconnection [46]
   Lapenta, Giovanni, Krauss-Varban, D., Karimabadi, H., Huba, J. D., Rudakov, L. I. & Ricci, Paolo, Geophysical Research Letters, 33, L10102
8. Modeling the Large-Scale Structures of Astrophysical Jets in the Magnetically Dominated Limit [89]
   Li, Hui, Lapenta, Giovanni, Finn, John M., Li, Shengtai & Colgate, Stirling A., ApJ, 643, 92
9. In situ measurement of thermal electrons on the SIERRA nightside auroral sounding rocket [18]
   MacDonald, E. A., Lynch, K. A., Widholm, M., Arnoldy, R., Kintner, P. M., Klatt, E. M., Samara, M., Labelle, J. & Lapenta, G., Journal of Geophysical Research (Space Physics), 111, A12310
10. Two-dimensional electron-electron two-stream instability of an inertial electrostatic confinement device [3]
    Marocchino, A., Lapenta, G., Evstatiev, E. G., Nebel, R. A. & Park, J., Physics of Plasmas, 13, 102106
11. Plasma dragged microparticles as a method to measure plasma flows [17]
    Ticoș, Cǎtǎlin M., Wang, Zhehui, Delzanno, Gian Luca & Lapenta, Giovanni, Physics of Plasmas, 13, 103501

2005

1. Forced magnetic reconnection [101]
   Birn, J., Galsgaard, K., Hesse, M., Hoshino, M., Huba, J., Lapenta, G., Pritchett, P. L., Schindler, K., Yin, L., Büchner, J., Neukirch, T. & Priest, E. R., Geophysical Research Letters, 32, L06105
2. Model of bifurcated current sheets in the Earth's magnetotail: Equilibrium and stability [39]
   Camporeale, Enrico & Lapenta, Giovanni, Journal of Geophysical Research (Space Physics), 110, A07206
3. Modified Jeans Instability for Dust Grains in a Plasma [27]
   Delzanno, G. L. & Lapenta, G., Physical Review Letters, 94, 175005
4. Exact orbital motion theory of the shielding potential around an emitting, spherical body [34]
   Delzanno, G. L., Bruno, A., Sorasio, G. & Lapenta, G., Physics of Plasmas, 12, 062102
5. Coalescence of two magnetic flux ropes via collisional magnetic reconnectiona) [24]
   Furno, Ivo, Intrator, Thomas P., Hemsing, Erik W., Hsu, Scott C., Abbate, S., Ricci, Paolo & Lapenta, Giovanni, Physics of Plasmas, 12, 055702
6. Simulation of Astrophysical Jets: Collimation and Expansion into Radio Lobes [13]
   Lapenta, G. & Kronberg, P. P., ApJ, 625, 37
7. Effect of a Converging Flow at the Streamer Cusp on the Genesis of the Slow Solar Wind [26]
   Lapenta, Giovanni & Knoll, D. A., ApJ, 624, 1049
8. New role of the lower-hybrid drift instability in the magnetic reconnectiona) [30]
   Ricci, Paolo, Brackbill, J. U., Daughton, W. & Lapenta, Giovanni, Physics of Plasmas, 12, 055901

2004

1. Nonlinear Evolution of the Lower-Hybrid Drift Instability in a Current Sheet [116]
   Daughton, William, Lapenta, Giovanni & Ricci, Paolo, Physical Review Letters, 93, 105004
2. Similarity solutions for magnetic bubble expansion [5]
   Finn, John M., Lapenta, Giovanni & Li, Hui, Physics of Plasmas, 11, 2082
3. Variational grid adaptation based on the minimization of local truncation error: time-independent problems [14]
   Lapenta, Giovanni, Journal of Computational Physics, 193, 159
4. A recipe to detect the error in discretization schemes [1]
   Lapenta, Giovanni, International Journal for Numerical Methods in Engineering, 59, 2065
5. Influence of the lower hybrid drift instability on the onset of magnetic reconnection [69]
   Ricci, Paolo, Brackbill, J. U., Daughton, W. & Lapenta, Giovanni, Physics of Plasmas, 11, 4489
6. Collisionless magnetic reconnection in the presence of a guide field [185]
   Ricci, Paolo, Brackbill, J. U., Daughton, W. & Lapenta, Giovanni, Physics of Plasmas, 11, 4102
7. Comment on ``Solitonlike Solutions of the Grad-Shafranov Equation'' [3]
   Throumoulopoulos, G. N., Hizanidis, K. & Tasso, H., Physical Review Letters, 92, 249501
8. Particle in cell simulation of combustion synthesis of TiC nanoparticles [1]
   Zuccaro, G., Lapenta, G. & Maizza, G., Computer Physics Communications, 162, 89

2003

1. Reconnection in the Solar Corona: Role of the Kelvin-Helmholtz Instability [25]
   Lapenta, Giovanni & Knoll, D. A., Solar Physics, 214, 107
2. A new paradigm for 3D Collisionless Magnetic Reconnection [7]
   Lapenta, Giovanni, Space Science Reviews, 107, 167
3. The unexpected role of the lower hybrid drift instability in magnetic reconnection in three dimensions [58]
   Lapenta, Giovanni, Brackbill, J. U. & Daughton, W. S., Physics of Plasmas, 10, 1577
4. Electron acceleration and heating in collisionless magnetic reconnection [27]
   Ricci, Paolo, Lapenta, Giovanni & Brackbill, J. U., Physics of Plasmas, 10, 3554

2002

1. Nonlinear phase of the compressional m=1 diocotron instability: Saturation and analogy with geophysical fluid dynamics [2]
   Delzanno, G. L., Finn, J. M. & Lapenta, G., Physics of Plasmas, 9, 5059
2. Stability analysis of hollow electron columns including compressional and thermal effects: Integrability condition and numerical simulations [3]
   Delzanno, G. L., Pariev, V. I., Finn, J. M. & Lapenta, G., Physics of Plasmas, 9, 4863
3. KANDINSKY: A PIC Code for Fluid Simulations of Penning Traps [11]
   Delzanno, Gian Luca, Lapenta, Giovanni & Finn, John M., IEEE Transactions on Plasma Science, 30, 34
4. Nature of the force field in plasma wakes [39]
   Lapenta, Giovanni, Physical Review E, 66, 026409
5. Nonlinear evolution of the lower hybrid drift instability: Current sheet thinning and kinking [83]
   Lapenta, Giovanni & Brackbill, J. U., Physics of Plasmas, 9, 1544
6. Particle Rezoning for Multidimensional Kinetic Particle-In-Cell Simulations [79]
   Lapenta, Giovanni, Journal of Computational Physics, 181, 317
7. Properties of the Lenard-Balescu collision operator: A numerical study [5]
   Ricci, Paolo & Lapenta, Giovanni, Physics of Plasmas, 9, 430
8. A Simplified Implicit Maxwell Solver [47]
   Ricci, Paolo, Lapenta, Giovanni & Brackbill, J. U., Journal of Computational Physics, 183, 117

2001

1. A model for evaluating compression effects in the m_θ=1 diocotron instability [15]
   Coppa, G. G. M., D'Angola, A., Delzanno, G. L. & Lapenta, G., Physics of Plasmas, 8, 1133
2. Point kinetic model for fluid fuel systems [13]
   Lapenta, G., Mattioda, F. & Ravetto, P., Annals of Nuclear Energy, 28, 1759
3. Neutron transport problems in anisotropic media [0]
   Lapenta, G., Ravetto, P., Rostagno, M. M., Jacqmin, R., Malvagi, F. & Rimpault, G., Annals of Nuclear Energy, 28, 1271
4. Ion Flow Induced Attractive Force in Complex Plasma Crystals [13]
   Lapenta, Giovanni & Lapenta, Giovanni, Physica Scripta, 64, 599
5. Plasma kinetics in dusty plasmas [26]
   Ricci, Paolo, Lapenta, Giovanni, de Angelis, U. & Tsytovich, V. N., Physics of Plasmas, 8, 769

2000

1. Microscopic dynamics underlying anomalous diffusion [38]
   Kaniadakis, G. & Lapenta, G., Physical Review E, 62, 3246
2. Linear theory of plasma wakes [48]
   Lapenta, Giovanni, Physical Review E, 62, 1175

1997

1. Simulation of dust particle dynamics for electrode design in plasma discharges [22]
   Lapenta, G. & Brackbill, J. U., Plasma Sources Science Technology, 6, 61

1996

1. Blob Method for Kinetic Plasma Simulation with Variable-Size Particles [17]
   Coppa, G. G. M., Lapenta, G., Dellapiana, G., Donato, F. & Riccardo, V., Journal of Computational Physics, 127, 268
2. Kinetic simulation of bounded plasmas with the BLOB method [0]
   Coppa, G. G. M., Dellapiana, G. & Lapenta, G., IEEE Transactions on Plasma Science, 24, 12
3. Immersed boundary method for plasma simulation in complex geometries [9]
   Lapenta, G. & Brackbill, J. U., IEEE Transactions on Plasma Science, 24, 105

1995

1. A synthesis method in the study of linear forced oscillations in a collisionless plasma [0]
   Deltapiana, G., Coppa, G. G. M., Lapenta, G., Ravetto, P. & Colombo, V., Transport Theory and Statistical Physics, 24, 219
2. Particle-in-cell simulation of glow discharges in complex geometries [34]
   Lapenta, G., Iinoya, F. & Brackbill, J. U., IEEE Transactions on Plasma Science, 23, 769
3. Dipole moments on dust particles immersed in anisotropic plasmas [57]
   Lapenta, Giovanni, Physical Review Letters, 75, 4409
4. Control of the number of particles in fluid and MHD particle in cell methods [25]
   Lapenta, Giovanni & Brackbill, J. U., Computer Physics Communications, 87, 139

1994

1. Dynamic and Selective Control of the Number of Particles in Kinetic Plasma Simulations [65]
   Lapenta, Giovanni & Brackbill, Jeremiah U., Journal of Computational Physics, 115, 213

1993

1. Analysis of non-Maxwellian fusion reaction rates with electron screening [6]
   Lapenta, Giovanni & Quarati, Piero, Zeitschrift fur Physik A Hadrons and Nuclei, 346, 243

1992

1. Two-dimensional transport with highly anisotropic scattering [1]
   Bovio, L., Colombo, V., Coppa, G. G. M., Lapenta, G. & Ravetto, P., Annals of Nuclear Energy, 19, 639
2. Non-Maxwellian nuclear reaction rates with electron screening [2]
   Lapenta, G. & Quarati, P., Nuclear Physics B Proceedings Supplements, 28, 126

1990

1. Angular finite element techniques in neutron transport [5]
   Coppa, G. G. M., Lapenta, G. & Ravetto, P., Annals of Nuclear Energy, 17, 363

1989

1. Critical benchmarks in multigroup neutron transport [1]
   Coppa, G. G. M., Lapenta, G. & Ravetto, P., Annals of Nuclear Energy, 16, 599