Publications of Nikolai V. Pogorelov

A list of publications authored or co-authored by Nikolai V. Pogorelov, 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: 0000-0002-6409-2392

List of publications ordered by citations
Number of papers: 164 (refereed: 139)
No. of citations: 7313
First author papers: 32 (refereed: 24)

2026

1. Kelvin─Helmholtz Instability and Energetic Neutral Atoms in the Heliosphere [0]
   Zirnstein, E. J., Fraternale, F., Pogorelov, N. V. & Bera, R. K., ApJ, 997, L11

2025

1. The Role of Pickup Ions in the Interaction of the Solar Wind with the Local Interstellar Medium. II. Effects of Solar Cycle [4]
   Bera, R. K., Fraternale, F., Pogorelov, N. V., Roytershteyn, V., Gedalin, M. & Zank, G. P., ApJ, 990, 5
2. Simulating a Steady-state Heliosphere [1]
   Heerikhuisen, Jacob, Zirnstein, Eric J. & Pogorelov, Nikolai V., ApJS, 276, 13
3. Ensemble Modeling of the Solar Wind Flow with Boundary Conditions Governed by Synchronic Photospheric Magnetograms. I. Multipoint Validation in the Inner Heliosphere [1]
   Hegde, Dinesha V., Kim, Tae K., Pogorelov, Nikolai V., Jones, Shaela I. & Arge, Charles N., ApJ, 988, 154
4. Fluctuations Driven by Multicomponent Pickup Ion Distributions in the Outer Heliosheath [3]
   Mousavi, Ameneh, Roytershteyn, Vadim, Fraternale, Federico & Pogorelov, Nikolai, ApJ, 980, 95
5. Solar Flare Forecasting Using Machine Learning and SDO/HMI Data: A Multiple Machine Learning Model and Data Curation Technique Comparison Study [0]
   Newman, Timothy S., Hall, Christian W., Farris, Luke, Singh, Talwinder, Pogorelov, Nikolai, Benson, Bernard, Raza, Syed & Trital, Prajun, ApJS, 280, 54
6. The Global Structure of the Heliosphere [3]
   Pogorelov, Nikolai V., Fraternale, Federico, Zank, Gary P. & Zhang, Ming, ApJ, 992, 118
7. The Effect of Uncertainties in Reproducing the Ambient Solar Wind at Earth on Forecasting CME Arrival Times [0]
   Raza, Syed A. Z., Singh, Talwinder & Pogorelov, Nikolai V., Space Weather, 23, e2025SW004371
8. Magnitude of Short-wavelength Electric Field Fluctuations in Simulations of Collisionless Plasma Shocks [0]
   Roytershteyn, Vadim, Wilson, Lynn B., III, Chen, Li-Jen, Gedalin, Michael & Pogorelov, Nikolai, ApJ, 992, 104
9. Magnetohydrodynamic Simulation of a Coronal Mass Ejection Observed during the Near-radial Alignment of Solar Orbiter and Earth [2]
   Singh, Talwinder, Hegde, Dinesha V., Kim, Tae K. & Pogorelov, Nikolai V., ApJ, 981, 53

2024

1. Constraining the Properties of the Multicomponent Local Interstellar Medium: MHD-kinetic Modeling Validated by Voyager and New Horizons Data [15]
   Fraternale, Federico, Pogorelov, Nikolai V. & Bera, Ratan K., ApJ, 974, L15

2023

1. Prediction and Verification of Parker Solar Probe Solar Wind Sources at 13.3 R_☉ [39]
   Badman, S. T., Riley, P., Jones, S. I., Kim, T. K., Allen, R. C., Arge, C. N., Bale, S. D., Henney, C. J., Kasper, J. C., Mostafavi, P., Pogorelov, N. V., Raouafi, N. E., Stevens, M. L. & Verniero, J. L., Journal of Geophysical Research (Space Physics), 128, e2023JA031359
2. The Role of Pickup Ions in the Interaction of the Solar Wind with the Local Interstellar Medium. I. Importance of Kinetic Processes at the Heliospheric Termination Shock [19]
   Bera, R. K., Fraternale, F., Pogorelov, N. V., Roytershteyn, V., Gedalin, M., McComas, D. J. & Zank, G. P., ApJ, 954, 147
3. A Large Magnetic Hump in the VLISM Observed by Voyager 1 in 2020-2022 [13]
   Burlaga, L. F., Pogorelov, N., Jian, L. K., Park, J., Szabo, A. & Ness, N. F., ApJ, 953, 135
4. The Role of Electrons and Helium Atoms in Global Modeling of the Heliosphere [28]
   Fraternale, F., Pogorelov, N. V. & Bera, R. K., ApJ, 946, 97
5. Shock Heating of Incident Thermal and Superthermal Populations of Different Ion Species [6]
   Gedalin, Michael, Roytershteyn, Vadim & Pogorelov, Nikolai V., ApJ, 945, 50
6. Scattering of Superthermal Ions at Shocks: Dependence on Energy [0]
   Gedalin, Michael, Ganushkina, Natalia, Pogorelov, Nikolai V. & Roytershteyn, Vadim, ApJ, 957, 106
7. Scattering of Ions at a Rippled Shock [5]
   Gedalin, Michael, Pogorelov, Nikolai V. & Roytershteyn, Vadim, ApJ, 951, 65
8. Role of the overshoot in the shock self-organization [6]
   Gedalin, Michael, Dimmock, Andrew P., Russell, Christopher T., Pogorelov, Nikolai V. & Roytershteyn, Vadim, Journal of Plasma Physics, 89, 905890201
9. Rotation of a Stealth CME on 2012 October 5 Observed in the Inner Heliosphere [3]
   Kumar, Sandeep, Hegde, Dinesha V., Srivastava, Nandita, Pogorelov, Nikolai V., Gopalswamy, Nat & Yashiro, Seiji, ApJ, 958, 103
10. Voyager Observations of Electron Densities in the Very Local Interstellar Medium [14]
    Kurth, W. S., Burlaga, L. F., Kim, T., Pogorelov, N. V. & Granroth, L. J., ApJ, 951, 71
11. Heliosphere in the Local Interstellar Medium [6]
    Pogorelov, Nikolai V., The Predictive Power of Computational Astrophysics as a Discover Tool (Editors: Bisikalo, Dmitry, Wiebe, Dmitri & Boily, Christian), IAU Symposium, 362, p. 309
12. Improving the Arrival Time Estimates of Coronal Mass Ejections by Using Magnetohydrodynamic Ensemble Modeling, Heliospheric Imager Data, and Machine Learning [14]
    Singh, Talwinder, Benson, Bernard, Raza, Syed A. Z., Kim, Tae K., Pogorelov, Nikolai V., Smith, William P. & Arge, Charles N., ApJ, 948, 78
13. A Data-driven, Physics-based Transport Model of Solar Energetic Particles Accelerated by Coronal Mass Ejection Shocks Propagating through the Solar Coronal and Heliospheric Magnetic Fields [12]
    Zhang, Ming, Cheng, Lei, Zhang, Ju, Riley, Pete, Kwon, Ryun Young, Lario, David, Balmaceda, Laura & Pogorelov, Nikolai V., ApJS, 266, 35

2022

1. Turbulence in the Outer Heliosphere [38]
   Fraternale, Federico, Adhikari, Laxman, Fichtner, Horst, Kim, Tae K., Kleimann, Jens, Oughton, Sean, Pogorelov, Nikolai V., Roytershteyn, Vadim, Smith, Charles W., Usmanov, Arcadi V., Zank, Gary P. & Zhao, Lingling, Space Science Reviews, 218, 50
2. Exploring Turbulence from the Sun to the Local Interstellar Medium: Current Challenges and Perspectives for Future Space Missions [4]
   Fraternale, Federico, Zhao, Lingling, Pogorelov, Nikolai V., Sorriso-Valvo, Luca, Redfield, Seth, Zhang, Ming, Ghanbari, Keyvan, Florinski, Vladimir & Chen, Thomas Y., Frontiers in Astronomy and Space Sciences, 9, 353
3. Probabilities of ion scattering at the shock front [0]
   Gedalin, Michael, Pogorelov, Nikolai V. & Roytershteyn, Vadim, Journal of Plasma Physics, 88, 905880110
4. Change of Rankine-Hugoniot Relations during Postshock Relaxation of Anisotropic Distributions [5]
   Gedalin, Michael, Golan, Michal, Pogorelov, Nikolai V. & Roytershteyn, Vadim, ApJ, 940, 21
5. The Structure of the Large-Scale Heliosphere as Seen by Current Models [41]
   Kleimann, Jens, Dialynas, Konstantinos, Fraternale, Federico, Galli, André, Heerikhuisen, Jacob, Izmodenov, Vladislav, Kornbleuth, Marc, Opher, Merav & Pogorelov, Nikolai, Space Science Reviews, 218, 36
6. Shocks in the Very Local Interstellar Medium [17]
   Mostafavi, P., Burlaga, L. F., Cairns, I. H., Fuselier, S. A., Fraternale, F., Gurnett, D. A., Kim, T. K., Kurth, W. S., Pogorelov, N. V., Provornikova, E., Richardson, J. D., Turner, D. L. & Zank, G. P., Space Science Reviews, 218, 27
7. Ensemble Simulations of the 2012 July 12 Coronal Mass Ejection with the Constant-turn Flux Rope Model [24]
   Singh, Talwinder, Kim, Tae K., Pogorelov, Nikolai V. & Arge, Charles N., ApJ, 933, 123
8. Bulk Properties of Pickup Ions Derived from the Ulysses Solar Wind Ion Composition Spectrometer Data [4]
   Smith, William P., Renfroe, Kyle, Pogorelov, Nikolai V., Zhang, Ming, Gedalin, Michael & Kim, Tae K., ApJ, 933, 124
9. Interstellar Neutrals, Pickup Ions, and Energetic Neutral Atoms Throughout the Heliosphere: Present Theory and Modeling Overview [22]
   Sokół, Justyna M., Kucharek, Harald, Baliukin, Igor I., Fahr, Hans, Izmodenov, Vladislav V., Kornbleuth, Marc, Mostafavi, Parisa, Opher, Merav, Park, Jeewoo, Pogorelov, Nikolai V., Quinn, Philip R., Smith, Charles W., Zank, Gary P. & Zhang, Ming, Space Science Reviews, 218, 18
10. In Situ Observations of Interstellar Pickup Ions from 1 au to the Outer Heliosphere [35]
    Zirnstein, E. J., Möbius, E., Zhang, M., Bower, J., Elliott, H. A., McComas, D. J., Pogorelov, N. V. & Swaczyna, P., Space Science Reviews, 218, 28

2021

1. Transport of Interstellar Neutral Helium throughout the Heliosphere [27]
   Fraternale, Federico, Pogorelov, Nikolai V. & Heerikhuisen, Jacob, ApJ, 921, L24
2. Waves and Turbulence in the Very Local Interstellar Medium: From Macroscales to Microscales [28]
   Fraternale, Federico & Pogorelov, Nikolai V., ApJ, 906, 75
3. Boundary Conditions at the Heliospheric Termination Shock with Pickup Ions [12]
   Gedalin, Michael, Pogorelov, Nikolai V. & Roytershteyn, Vadim, ApJ, 916, 57
4. Backstreaming Pickup Ions [11]
   Gedalin, Michael, Pogorelov, Nikolai V. & Roytershteyn, Vadim, ApJ, 910, 107
5. Origin of the Weak Plasma Emission Line Detected by Voyager 1 in the Interstellar Medium: Evidence for Suprathermal Electrons [24]
   Gurnett, D. A., Kurth, W. S., Burlaga, L. F., Berdichevsky, D. B., Pogorelov, N. V., Pulupa, M. & Bale, S. D., ApJ, 921, 62
6. Magnetic Field Draping of the Heliopause and Its Consequences for Radio Emission in the Very Local Interstellar Medium [30]
   Pogorelov, N. V., Fraternale, F., Kim, T. K., Burlaga, L. F. & Gurnett, D. A., ApJ, 917, L20

2020

1. Heliospheric Structure as Revealed by the 3-88 keV H ENA Spectra [11]
   Czechowski, A., Bzowski, M., Sokół, J. M., Kubiak, M. A., Heerikhuisen, J., Zirnstein, E. J., Pogorelov, N. V., Schwadron, N. A., Hilchenbach, M., Grygorczuk, J. & Zank, G. P., ApJ, 888, 1
2. Snowmass 2021 LoI: Determination of cosmic ray properties in the local interstellar medium with all-sky anisotropy observations [3]
   Desiati, Paolo, Díaz Vélez, Juan Carlos, Pogorelov, Nikolai & Zhang, Ming, arXiv:2009.04883
3. Signatures of Intermittency and Fine-scale Turbulence in the Very Local Interstellar Medium [17]
   Fraternale, Federico, Pogorelov, Nikolai V. & Burlaga, Leonard F., ApJ, 897, L28
4. Rankine-Hugoniot Relations Including Pickup Ions [10]
   Gedalin, Michael, Pogorelov, Nikolai V. & Roytershteyn, Vadim, ApJ, 889, 116
5. Predicting the Solar Wind at the Parker Solar Probe Using an Empirically Driven MHD Model [22]
   Kim, T. K., Pogorelov, N. V., Arge, C. N., Henney, C. J., Jones-Mecholsky, S. I., Smith, W. P., Bale, S. D., Bonnell, J. W., Dudok de Wit, T., Goetz, K., Harvey, P. R., MacDowall, R. J., Malaspina, D. M., Pulupa, M., Kasper, J. C., Korreck, K. E., Stevens, M., Case, A. W., Whittlesey, P., Livi, R., Larson, D. E., Klein, K. G. & Zank, G. P., ApJS, 246, 40
6. A data-driven MHD model of the weakly-ionized chromosphere [1]
   Sarp Yalim, Mehmet, Prasad, Avijeet, Pogorelov, Nikolai, Zank, Gary & Hu, Qiang, Journal of Physics Conference Series, Journal of Physics Conference Series, 1620, p. 012026
7. Application of a Modified Spheromak Model to Simulations of Coronal Mass Ejection in the Inner Heliosphere [17]
   Singh, Talwinder, Kim, Tae K., Pogorelov, Nikolai V. & Arge, Charles N., Space Weather, 18, e02405
8. A Modified Spheromak Model Suitable for Coronal Mass Ejection Simulations [22]
   Singh, Talwinder, Yalim, Mehmet S., Pogorelov, Nikolai V. & Gopalswamy, Nat, ApJ, 894, 49
9. The Heliospheric Current Sheet in the Inner Heliosphere Observed by the Parker Solar Probe [71]
   Szabo, Adam, Larson, Davin, Whittlesey, Phyllis, Stevens, Michael L., Lavraud, Benoit, Phan, Tai, Wallace, Samantha, Jones-Mecholsky, Shaela I., Arge, Charles N., Badman, Samuel T., Odstrcil, Dusan, Pogorelov, Nikolai, Kim, Tae, Riley, Pete, Henney, Carl J., Bale, Stuart D., Bonnell, John W., Case, Antony W., Dudok de Wit, Thierry, Goetz, Keith, Harvey, Peter, Kasper, Justin C., Korreck, Kelly E., Koval, Andriy, Livi, Roberto, MacDowall, Robert J., Malaspina, David M. & Pulupa, Marc, ApJS, 246, 47
10. Effects of Cowling Resistivity in the Weakly Ionized Chromosphere [16]
    Yalim, M. S., Prasad, A., Pogorelov, N. V., Zank, G. P. & Hu, Q., ApJ, 899, L4
11. The Original Anisotropy of TeV Cosmic Rays in the Local Interstellar Medium [19]
    Zhang, Ming, Pogorelov, N. V., Zhang, Y., Hu, H. B. & Schlickeiser, R., ApJ, 889, 97
12. Modulation of Galactic Cosmic Rays by Plasma Disturbances Propagating Through the Local Interstellar Medium in the Outer Heliosheath [15]
    Zhang, Ming & Pogorelov, Nikolai, ApJ, 895, 1
13. Response of Pickup Ions in the Very Local Interstellar Medium to Solar Variations: Implications for the Evolution of the IBEX Ribbon and Interstellar Helium [11]
    Zirnstein, E. J., Kim, T. K., Mostafavi, P., Heerikhuisen, J., McComas, D. J. & Pogorelov, N. V., ApJ, 891, 56

2019

1. Temporal Evolution of the Latitude and Energy Dependence of the Energetic Neutral Atom Spectral Indices Measured by the Interstellar Boundary Explorer (IBEX) Over the First Nine Years [13]
   Desai, M. I., Dayeh, M. A., Allegrini, F., McComas, D. J., Funsten, H., Heerikhuisen, J., Fuselier, S. A., Pogorelov, N., Schwadron, N. A., Zank, G. P., Zirnstein, E. J., Sokół, J. M., Tokumaru, M., Bzowski, M., Kubiak, M. A. & Reisenfeld, D. B., ApJ, 875, 91
2. Magnetic Turbulence Spectra and Intermittency in the Heliosheath and in the Local Interstellar Medium [55]
   Fraternale, Federico, Pogorelov, Nikolai V., Richardson, John D. & Tordella, Daniela, ApJ, 872, 40
3. The structure of magnetic turbulence in the heliosheath region observed by Voyager 2 at 106 AU [4]
   Fraternale, Federico, Pogorelov, Nikolai V., Richagrdson, John D. & Tordella, Daniela, Journal of Physics Conference Series, Journal of Physics Conference Series, 1225, p. 012006
4. The Effect of Suprathermal Protons in the Heliosheath on the Global Structure of the Heliosphere and Heliotail [39]
   Heerikhuisen, Jacob, Zirnstein, Eric J., Pogorelov, Nikolai V., Zank, Gary P. & Desai, Mihir, ApJ, 874, 76
5. Alfvénic velocity spikes and rotational flows in the near-Sun solar wind [414]
   Kasper, J. C., Bale, S. D., Belcher, J. W., Berthomier, M., Case, A. W., Chandran, B. D. G., Curtis, D. W., Gallagher, D., Gary, S. P., Golub, L., Halekas, J. S., Ho, G. C., Horbury, T. S., Hu, Q., Huang, J., Klein, K. G., Korreck, K. E., Larson, D. E., Livi, R., Maruca, B., Lavraud, B., Louarn, P., Maksimovic, M., Martinovic, M., McGinnis, D., Pogorelov, N. V., Richardson, J. D., Skoug, R. M., Steinberg, J. T., Stevens, M. L., Szabo, A., Velli, M., Whittlesey, P. L., Wright, K. H., Zank, G. P., MacDowall, R. J., McComas, D. J., McNutt, R. L., Pulupa, M., Raouafi, N. E. & Schwadron, N. A., Nature, 576, 228
6. Pickup Ions beyond the Heliopause [18]
   Roytershteyn, V., Pogorelov, N. V. & Heerikhuisen, J., ApJ, 881, 65
7. On the Anisotropy of Galactic Cosmic Rays [7]
   Schlickeiser, R., Oppotsch, J., Zhang, M. & Pogorelov, N. V., ApJ, 879, 29
8. Simulating Solar Coronal Mass Ejections Constrained by Observations of Their Speed and Poloidal Flux [15]
   Singh, T., Yalim, M. S., Pogorelov, N. V. & Gopalswamy, N., ApJ, 875, L17
9. Determination of Plasma, Pickup Ion, and Suprathermal Particle Spectrum in the Solar Wind Frame of Reference [6]
   Zhang, Ming, Zhao, Lulu, von Steiger, R., Wimmer-Schweingruber, R. F., Gloeckler, G. M., Desai, M. & Pogorelov, N. V., ApJ, 871, 60

2018

1. A Data-driven Model of the Solar Wind, Interstellar Pickup Ions, and Turbulence throughout Interplanetary Space [7]
   Kim, Tae, Kryukov, Igor, Pogorelov, Nikolai, Elliott, Heather & Zank, Gary, essoar.b60497724eca58de
2. A Time-dependent Heliospheric Model Driven by Empirical Boundary Conditions [0]
   Kim, Tae, Arge, Charles & Pogorelov, Nikolai, essoar.9b619190e374af0d
3. A Data-constrained Model for Coronal Mass Ejections Using the Graduated Cylindrical Shell Method [35]
   Singh, T., Yalim, M. S. & Pogorelov, N. V., ApJ, 864, 18
4. Simulation of the Solar Wind Dynamic Pressure Increase in 2014 and Its Effect on Energetic Neutral Atom Fluxes from the Heliosphere [46]
   Zirnstein, E. J., Heerikhuisen, J., McComas, D. J., Pogorelov, N. V., Reisenfeld, D. B. & Szalay, J. R., ApJ, 859, 104

2017

1. Modeling Shocks Detected by Voyager 1 in the Local Interstellar Medium [53]
   Kim, T. K., Pogorelov, N. V. & Burlaga, L. F., ApJ, 843, L32
2. The aurorae of Uranus past equinox [31]
   Lamy, L., Prangé, R., Hansen, K. C., Tao, C., Cowley, S. W. H., Stallard, T. S., Melin, H., Achilleos, N., Guio, P., Badman, S. V., Kim, T. & Pogorelov, N., Journal of Geophysical Research (Space Physics), 122, 3997
3. TeV Cosmic-Ray Anisotropy from the Magnetic Field at the Heliospheric Boundary [22]
   López-Barquero, V., Xu, S., Desiati, P., Lazarian, A., Pogorelov, N. V. & Yan, H., ApJ, 842, 54
4. Modeling Coronal Mass Ejections with the Multi-Scale Fluid-Kinetic Simulation Suite [7]
   Pogorelov, N. V., Borovikov, S. N., Kryukov, I. A., Wu, S. T., Yalim, M. S., Colella, P. C. & Van Straalen, B., Journal of Physics Conference Series, Journal of Physics Conference Series, 837, p. 012014
5. Heliosheath Processes and the Structure of the Heliopause: Modeling Energetic Particles, Cosmic Rays, and Magnetic Fields [78]
   Pogorelov, N. V., Fichtner, H., Czechowski, A., Lazarian, A., Lembege, B., le Roux, J. A., Potgieter, M. S., Scherer, K., Stone, E. C., Strauss, R. D., Wiengarten, T., Wurz, P., Zank, G. P. & Zhang, M., Space Science Reviews, 212, 193
6. Three-dimensional Features of the Outer Heliosphere Due to Coupling between the Interstellar and Heliospheric Magnetic Field. V. The Bow Wave, Heliospheric Boundary Layer, Instabilities, and Magnetic Reconnection [89]
   Pogorelov, N. V., Heerikhuisen, J., Roytershteyn, V., Burlaga, L. F., Gurnett, D. A. & Kurth, W. S., ApJ, 845, 9
7. A data-driven MHD model of the global solar corona within Multi-Scale Fluid-Kinetic Simulation Suite (MS-FLUKSS) [13]
   Sarp Yalim, Mehmet, Pogorelov, Nikolai & Liu, Yang, Journal of Physics Conference Series, Journal of Physics Conference Series, 837, p. 012015
8. Pristine TeV cosmic-ray anisotropy in the local interstellar medium [1]
   Zhang, M. & Pogorelov, N., 35th International Cosmic Ray Conference (ICRC2017), International Cosmic Ray Conference, 301, p. 502
9. Structure of the Heliotail from Interstellar Boundary Explorer Observations: Implications for the 11-year Solar Cycle and Pickup Ions in the Heliosheath [70]
   Zirnstein, E. J., Heerikhuisen, J., Zank, G. P., Pogorelov, N. V., Funsten, H. O., McComas, D. J., Reisenfeld, D. B. & Schwadron, N. A., ApJ, 836, 238

2016

1. ASTRONUM-2015 [0]
   Audit, Edouard, Pogorelov, Nikolai V. & Zank, Gary P., Journal of Physics Conference Series, Journal of Physics Conference Series, 719, p. 011001
2. Latitude, Energy, and Time Variations in the Energetic Neutral Atom Spectral Indices Measured by the Interstellar Boundary Explorer (IBEX) [8]
   Desai, M. I., Dayeh, M. A., Allegrini, F., McComas, D. J., Funsten, H., Heerikhuisen, J., Fuselier, S. A., Pogorelov, N., Schwadron, N. A., Zank, G. P., Zirnstein, E. J., Janzen, P. & Reisenfeld, D. B., ApJ, 832, 116
3. Neutral Atom Properties in the Direction of the IBEX Ribbon [34]
   Heerikhuisen, Jacob, Gamayunov, Konstantin V., Zirnstein, Eric J. & Pogorelov, Nikolai V., ApJ, 831, 137
4. Solar Wind Electrons Alphas and Protons (SWEAP) Investigation: Design of the Solar Wind and Coronal Plasma Instrument Suite for Solar Probe Plus [630]
   Kasper, Justin C., Abiad, Robert, Austin, Gerry, Balat-Pichelin, Marianne, Bale, Stuart D., Belcher, John W., Berg, Peter, Bergner, Henry, Berthomier, Matthieu, Bookbinder, Jay, Brodu, Etienne, Caldwell, David, Case, Anthony W., Chandran, Benjamin D. G., Cheimets, Peter, Cirtain, Jonathan W., Cranmer, Steven R., Curtis, David W., Daigneau, Peter, Dalton, Greg, Dasgupta, Brahmananda, DeTomaso, David, Diaz-Aguado, Millan, Djordjevic, Blagoje, Donaskowski, Bill, Effinger, Michael, Florinski, Vladimir, Fox, Nichola, Freeman, Mark, Gallagher, Dennis, Gary, S. Peter, Gauron, Tom, Gates, Richard, Goldstein, Melvin, Golub, Leon, Gordon, Dorothy A., Gurnee, Reid, Guth, Giora, Halekas, Jasper, Hatch, Ken, Heerikuisen, Jacob, Ho, George, Hu, Qiang, Johnson, Greg, Jordan, Steven P., Korreck, Kelly E., Larson, Davin, Lazarus, Alan J., Li, Gang, Livi, Roberto, Ludlam, Michael, Maksimovic, Milan, McFadden, James P., Marchant, William, Maruca, Bennet A., McComas, David J., Messina, Luciana, Mercer, Tony, Park, Sang, Peddie, Andrew M., Pogorelov, Nikolai, Reinhart, Matthew J., Richardson, John D., Robinson, Miles, Rosen, Irene, Skoug, Ruth M., Slagle, Amanda, Steinberg, John T., Stevens, Michael L., Szabo, Adam, Taylor, Ellen R., Tiu, Chris, Turin, Paul, Velli, Marco, Webb, Gary, Whittlesey, Phyllis, Wright, Ken, Wu, S. T. & Zank, Gary, Space Science Reviews, 204, 131
5. Modeling the Solar Wind at the Ulysses, Voyager, and New Horizons Spacecraft [35]
   Kim, T. K., Pogorelov, N. V., Zank, G. P., Elliott, H. A. & McComas, D. J., ApJ, 832, 72
6. An Empirically Driven Time-Dependent Model of the Solar Wind [35]
   Linker, Jon A., Caplan, Ronald M., Downs, Cooper, Lionello, Roberto, Riley, Pete, Mikic, Zoran, Henney, Carl J., Arge, Charles N., Kim, Tae & Pogorelov, Nikolai, Journal of Physics Conference Series, Journal of Physics Conference Series, 719, p. 012012
7. Study cosmic ray modulation near the heliopause: A numerical approach [0]
   Luo, X., Zhang, M., Potgieter, M. S., Feng, X. & Pogorelov, N. V., Solar Wind 14, American Institute of Physics Conference Series, 1720, p. 070005
8. A Numerical Simulation of Cosmic Ray Modulation Near the Heliopause. II. Some Physical Insights [20]
   Luo, Xi, Potgieter, Marius S., Zhang, Ming, Pogorelov, Nikolai V., Feng, Xueshang & Strauss, Du Toit R., ApJ, 826, 182
9. Pickup Ion Effect of the Solar Wind Interaction with the Local Interstellar Medium [24]
   Pogorelov, N. V., Bedford, M. C., Kryukov, I. A. & Zank, G. P., Journal of Physics Conference Series, Journal of Physics Conference Series, 767, p. 012020
10. The Heliotail: Theory and Modeling [10]
    Pogorelov, N. V., Journal of Physics Conference Series, Journal of Physics Conference Series, 719, p. 012013
11. The Heliosphere as Seen in TeV Cosmic Rays [9]
    Zhang, Ming & Pogorelov, Nikolai, Journal of Physics Conference Series, Journal of Physics Conference Series, 767, p. 012027
12. Local Interstellar Magnetic Field Determined from the Interstellar Boundary Explorer Ribbon [185]
    Zirnstein, E. J., Heerikhuisen, J., Funsten, H. O., Livadiotis, G., McComas, D. J. & Pogorelov, N. V., ApJ, 818, L18

2015

1. Latitudinal and Energy Dependence of Energetic Neutral Atom Spectral Indices Measured by the Interstellar Boundary Explorer [11]
   Desai, M. I., Allegrini, F., Dayeh, M. A., Funsten, H., Heerikhuisen, J., McComas, D. J., Fuselier, S. A., Pogorelov, N., Schwadron, N. A., Zank, G. P. & Zirnstein, E. J., ApJ, 802, 100
2. Transient shocks beyond the heliopause [13]
   Fermo, R. L., Pogorelov, N. V. & Burlaga, L. F., Journal of Physics Conference Series, Journal of Physics Conference Series, 642, p. 012008
3. κ-distributed protons in the solar wind and their charge-exchange coupling to energetic hydrogen [37]
   Heerikhuisen, J., Zirnstein, Eric & Pogorelov, Nikolai, Journal of Geophysical Research (Space Physics), 120, 1516
4. A Numerical Simulation of Cosmic-Ray Modulation Near the Heliopause [32]
   Luo, Xi, Zhang, Ming, Potgieter, Marius, Feng, Xueshang & Pogorelov, N. V., ApJ, 808, 82
5. Modeling solar wind with boundary conditions from interplanetary scintillations [8]
   Manoharan, P., Kim, T., Pogorelov, N. V., Arge, C. N. & Manoharan, P. K., Journal of Physics Conference Series, Journal of Physics Conference Series, 642, p. 012016
6. The Heliotail [85]
   Pogorelov, N. V., Borovikov, S. N., Heerikhuisen, J. & Zhang, M., ApJ, 812, L6
7. Where is the cosmic-ray modulation boundary of the heliosphere? [32]
   Zhang, Ming, Luo, Xi & Pogorelov, Nikolai, Physics of Plasmas, 22, 091501
8. Simulations of a Dynamic Solar Cycle and Its Effects on the Interstellar Boundary Explorer Ribbon and Globally Distributed Energetic Neutral Atom Flux [42]
   Zirnstein, E. J., Heerikhuisen, J., Pogorelov, N. V., McComas, D. J. & Dayeh, M. A., ApJ, 804, 5

2014

1. Voyager 1 near the Heliopause [66]
   Borovikov, S. N. & Pogorelov, N. V., ApJ, 783, L16
2. Energetic Neutral Atoms Measured by the Interstellar Boundary Explorer (IBEX): Evidence for Multiple Heliosheath Populations [50]
   Desai, M. I., Allegrini, F. A., Bzowski, M., Dayeh, M. A., Funsten, H., Fuselier, S. A., Heerikhuisen, J., Kubiak, M. A., McComas, D. J., Pogorelov, N. V., Schwadron, N. A., Sokół, J. M., Zank, G. P. & Zirnstein, E. J., ApJ, 780, 98
3. The Effect of New Interstellar Medium Parameters on the Heliosphere and Energetic Neutral Atoms from the Interstellar Boundary [98]
   Heerikhuisen, J., Zirnstein, E. J., Funsten, H. O., Pogorelov, N. V. & Zank, G. P., ApJ, 784, 73
4. MHD heliosphere with boundary conditions from a tomographic reconstruction using interplanetary scintillation data [27]
   Kim, T. K., Pogorelov, N. V., Borovikov, S. N., Jackson, B. V., Yu, H.-S. & Tokumaru, M., Journal of Geophysical Research (Space Physics), 119, 7981
5. Heliospheric Influence on the Anisotropy of TeV Cosmic Rays [53]
   Zhang, Ming, Zuo, Pingbing & Pogorelov, Nikolai, ApJ, 790, 5
6. Charge-exchange Coupling between Pickup Ions across the Heliopause and its Effect on Energetic Neutral Hydrogen Flux [65]
   Zirnstein, E. J., Heerikhuisen, J., Zank, G. P., Pogorelov, N. V., McComas, D. J. & Desai, M. I., ApJ, 783, 129

2013

1. Hemispheric Asymmetries in the Polar Solar Wind Observed by Ulysses near the Minima of Solar Cycles 22 and 23 [13]
   Ebert, R. W., Dayeh, M. A., Desai, M. I., McComas, D. J. & Pogorelov, N. V., ApJ, 768, 160
2. Galactic Cosmic Rays in the Outer Heliosphere: Theory and Models [21]
   Florinski, V., Ferreira, S. E. S. & Pogorelov, N. V., Space Science Reviews, 176, 147
3. The Solar Wind as a Possible Source of Fast Temporal Variations of the Heliospheric Ribbon [20]
   Kucharek, H., Fuselier, S. A., Wurz, P., Pogorelov, N., Borovikov, S., Lee, M. A., Moebius, E., Reisenfeld, D., Funsten, H., Schwadron, N. & McComas, D., ApJ, 776, 109
4. Galactic Cosmic-Ray Modulation in a Realistic Global Magnetohydrodynamic Heliosphere [26]
   Luo, Xi, Zhang, Ming, Rassoul, Hamid K., Pogorelov, Nikolai V. & Heerikhuisen, Jacob, ApJ, 764, 85
5. Three-dimensional Features of the Outer Heliosphere due to Coupling between the Interstellar and Interplanetary Magnetic Fields. IV. Solar Cycle Model Based on Ulysses Observations [106]
   Pogorelov, N. V., Suess, S. T., Borovikov, S. N., Ebert, R. W., McComas, D. J. & Zank, G. P., ApJ, 772, 2
6. Unsteady processes in the vicinity of the heliopause: Are we in the LISM yet? [8]
   Pogorelov, N. V., Borovikov, S. N., Burlaga, L. F., Ebert, R. W., Kryukov, I. A., Suess, S. T., Zank, G. P. & Bedford, M. C., Solar Wind 13 (Editors: Zank, Gary P., Borovsky, Joe, Bruno, Roberto, Cirtain, Jonathan, Cranmer, Steve, Elliott, Heather, Giacalone, Joe, Gonzalez, Walter, Li, Gang, Marsch, Eckart, Moebius, Ebehard, Pogorelov, Nick, Spann, Jim & Verkhoglyadova, Olga), American Institute of Physics Conference Series, 1539, p. 352
7. Heliospheric Structure: The Bow Wave and the Hydrogen Wall [163]
   Zank, G. P., Heerikhuisen, J., Wood, B. E., Pogorelov, N. V., Zirnstein, E. & McComas, D. J., ApJ, 763, 20

2012

1. Solar Rotation Effects on the Heliosheath Flow near Solar Minima [35]
   Borovikov, Sergey N., Pogorelov, Nikolai V. & Ebert, Robert W., ApJ, 750, 42
2. Spectral Properties of ~0.5-6 kev Energetic Neutral Atoms Measured by the Interstellar Boundary Explorer (IBEX) along the Lines of Sight of Voyager [31]
   Desai, M. I., Allegrini, F. A., Dayeh, M. A., De Majistre, B., Funsten, H., Heerikhuisen, J., McComas, D. J., Pogorelov, N., Schwadron, N. A. & Zank, G. P., ApJ, 749, L30
3. Self-consistent Model of the Interstellar Pickup Protons, Alfvénic Turbulence, and Core Solar Wind in the Outer Heliosphere [25]
   Gamayunov, Konstantin V., Zhang, Ming, Pogorelov, Nikolai V., Heerikhuisen, Jacob & Rassoul, Hamid K., ApJ, 757, 74
4. Modeling energetic neutral atoms and the IBEX spectrum [2]
   Heerikhuisen, Jacob, Pogorelov, Nikolai & Zank, Gary, Physics of the Heliosphere: A 10 Year Retrospective (Editors: Heerikhuisen, Jacob, Li, Gang, Pogorelov, Nikolai & Zank, Gary), American Institute of Physics Conference Series, 1436, p. 221
5. The Heliosphere’s Interstellar Interaction: No Bow Shock [242]
   McComas, D. J., Alexashov, D., Bzowski, M., Fahr, H., Heerikhuisen, J., Izmodenov, V., Lee, M. A., Möbius, E., Pogorelov, N., Schwadron, N. A. & Zank, G. P., Science, 336, 1291
6. Radial Velocity along the Voyager 1 Trajectory: The Effect of Solar Cycle [40]
   Pogorelov, N. V., Borovikov, S. N., Zank, G. P., Burlaga, L. F., Decker, R. A. & Stone, E. C., ApJ, 750, L4
7. Numerical modeling of the solar wind flow with observational boundary conditions [22]
   Pogorelov, N. V., Borovikov, S. N., Burlaga, L. F., Ebert, R. W., Heerikhuisen, J., Kim, T. K., Kryukov, I. A., Suess, S. T., Wu, S. T. & Zank, G. P., Space Weather: the Space Radiation Environment: 11th Annual International AstroPhysics Conference (Editors: Hu, Qiang, Li, Gang, Zank, Gary P., Ao, Xianzhi, Verkhoglyadova, Olga & Adams, James H.), American Institute of Physics Conference Series, 1500, p. 134
8. Trajectories and Distribution of Interstellar Dust Grains in the Heliosphere [49]
   Slavin, Jonathan D., Frisch, Priscilla C., Müller, Hans-Reinhard, Heerikhuisen, Jacob, Pogorelov, Nikolai V., Reach, William T. & Zank, Gary, ApJ, 760, 46

2011

1. Plasma Near the Heliosheath: Observations and Modeling [64]
   Borovikov, Sergey N., Pogorelov, Nikolai V., Burlaga, Leonard F. & Richardson, John D., ApJ, 728, L21
2. An Estimate of the Nearby Interstellar Magnetic Field Using Neutral Atoms [90]
   Heerikhuisen, J. & Pogorelov, N. V., ApJ, 738, 29
3. Cosmic-ray Modulation by the Global Merged Interaction Region in the Heliosheath [25]
   Luo, Xi, Zhang, Ming, Rassoul, Hamid K. & Pogorelov, N. V., ApJ, 730, 13
4. Interstellar Boundary Explorer Measurements and Magnetic Field in the Vicinity of the Heliopause [67]
   Pogorelov, Nikolai V., Heerikhuisen, Jacob, Zank, Gary P., Borovikov, Sergey N., Frisch, Priscilla C. & McComas, David J., ApJ, 742, 104

2010

1. Can IBEX Identify Variations in the Galactic Environment of the Sun Using Energetic Neutral Atoms? [18]
   Frisch, Priscilla C., Heerikhuisen, Jacob, Pogorelov, Nikolai V., DeMajistre, Bob, Crew, Geoffrey B., Funsten, Herbert O., Janzen, Paul, McComas, David J., Moebius, Eberhard, Mueller, Hans-Reinhard, Reisenfeld, Daniel Brett, Schwadron, Nathan A., Slavin, Jonathan D. & Zank, Gary Paul, ApJ, 719, 1984
2. Pick-Up Ions in the Outer Heliosheath: A Possible Mechanism for the Interstellar Boundary EXplorer Ribbon [245]
   Heerikhuisen, J., Pogorelov, N. V., Zank, G. P., Crew, G. B., Frisch, P. C., Funsten, H. O., Janzen, P. H., McComas, D. J., Reisenfeld, D. B. & Schwadron, N. A., ApJ, 708, L126
3. IBEX Ribbon from Outer Heliosheath Pick-up Ions [8]
   Heerikhuisen, Jacob, Pogorelov, Nikolai & Zank, Gary, Pickup Ions Throughout the Heliosphere and Beyond (Editors: Le Roux, Jakobus, Zank, Gary P., Coates, Andrew J. & Florinski, Vladimir), American Institute of Physics Conference Series, 1302, p. 98
4. Microstructure of the Heliospheric Termination Shock: Implications for Energetic Neutral Atom Observations [181]
   Zank, G. P., Heerikhuisen, J., Pogorelov, N. V., Burrows, R. & McComas, D., ApJ, 708, 1092
5. The Interaction of Turbulence with Shock Waves [9]
   Zank, G. P., Kryukov, I. A., Pogorelov, N. V. & Shaikh, D., 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. 563

2009

1. Four-dimensional Transport of Galactic Cosmic Rays in the Outer Heliosphere and Heliosheath [86]
   Florinski, V. & Pogorelov, N. V., ApJ, 701, 642
2. The Dynamic Heliosphere: Outstanding Issues. Report of Working Groups 4 and 6 [9]
   Florinski, V., Balogh, A., Jokipii, J. R., McComas, D. J., Opher, M., Pogorelov, N. V., Richardson, J. D., Stone, E. C. & Wood, B. E., Space Science Reviews, 143, 57
3. Detecting Neutral Atoms from Beyond the Heliopause with Interstellar Boundary Explorer [5]
   Heerikhuisen, J. & Pogorelov, N. V., ApJ, 695, L58
4. Global Observations of the Interstellar Interaction from the Interstellar Boundary Explorer (IBEX) [490]
   McComas, D. J., Allegrini, F., Bochsler, P., Bzowski, M., Christian, E. R., Crew, G. B., DeMajistre, R., Fahr, H., Fichtner, H., Frisch, P. C., Funsten, H. O., Fuselier, S. A., Gloeckler, G., Gruntman, M., Heerikhuisen, J., Izmodenov, V., Janzen, P., Knappenberger, P., Krimigis, S., Kucharek, H., Lee, M., Livadiotis, G., Livi, S., MacDowall, R. J., Mitchell, D., Möbius, E., Moore, T., Pogorelov, N. V., Reisenfeld, D., Roelof, E., Saul, L., Schwadron, N. A., Valek, P. W., Vanderspek, R., Wurz, P. & Zank, G. P., Science, 326, 959
5. Influence of the Interstellar Magnetic Field and Neutrals on the Shape of the Outer Heliosphere [56]
   Pogorelov, N. V., Heerikhuisen, J., Zank, G. P. & Borovikov, S. N., Space Science Reviews, 143, 31
6. Heliospheric asymmetries due to the action of the interstellar magnetic field [26]
   Pogorelov, Nikolai V., Heerikhuisen, Jacob, Zank, Gary P., Mitchell, Jeremy J. & Cairns, Iver H., Advances in Space Research, 44, 1337
7. Three-Dimensional Features of the Outer Heliosphere Due to Coupling Between the Interstellar and Interplanetary Magnetic Fields. III. The Effects of Solar Rotation and Activity Cycle [122]
   Pogorelov, Nikolai V., Borovikov, Sergey N., Zank, Gary P. & Ogino, Tatsuki, ApJ, 696, 1478
8. Heliospheric Asymmetries and 2-3 kHz Radio Emission Under Strong Interstellar Magnetic Field Conditions [87]
   Pogorelov, Nikolai V., Heerikhuisen, Jacob, Mitchell, Jeremy J., Cairns, Iver H. & Zank, Gary P., ApJ, 695, L31
9. Comparison of Interstellar Boundary Explorer Observations with 3D Global Heliospheric Models [237]
   Schwadron, N. A., Bzowski, M., Crew, G. B., Gruntman, M., Fahr, H., Fichtner, H., Frisch, P. C., Funsten, H. O., Fuselier, S., Heerikhuisen, J., Izmodenov, V., Kucharek, H., Lee, M., Livadiotis, G., McComas, D. J., Moebius, E., Moore, T., Mukherjee, J., Pogorelov, N. V., Prested, C., Reisenfeld, D., Roelof, E. & Zank, G. P., Science, 326, 966
10. Physics of the Solar Wind-Local Interstellar Medium Interaction: Role of Magnetic Fields [41]
    Zank, G. P., Pogorelov, N. V., Heerikhuisen, J., Washimi, H., Florinski, V., Borovikov, S., Kryukov, I. & Müller, H. R., Space Science Reviews, 146, 295

2008

1. Interaction of a thin shock with turbulence. I. Effect on shock structure: Analytic model [8]
   Ao, Xianzhi, Zank, Gary P., Pogorelov, Nikolai V. & Shaikh, Dastgeer, Physics of Fluids, 20, 127102-127102-19
2. Consequences of the Heliopause Instability Caused by Charge Exchange [63]
   Borovikov, Sergey N., Pogorelov, Nikolai V., Zank, Gary P. & Kryukov, Igor A., ApJ, 682, 1404
3. The Effects of a κ-Distribution in the Heliosheath on the Global Heliosphere and ENA Flux at 1 AU [167]
   Heerikhuisen, J., Pogorelov, N. V., Florinski, V., Zank, G. P. & le Roux, J. A., ApJ, 682, 679
4. Draping of the local interstellar magnetic field over the heliopause [12]
   Mitchell, J. J., Cairns, Iver H., Pogorelov, N. V. & Zank, G. P., Journal of Geophysical Research (Space Physics), 113, A04102
5. Three-dimensional Modeling of Physical Processes in the Outer Heliosphere [3]
   Pogorelov, N. V., Borovikov, S. N., Heerikhuisen, J., Kryukov, I. A. & Zank, G. P., Particle Acceleration and Transport in the Heliosphere and Beyond: 7th Annual International AstroPhysics Conference (Editors: Li, Gang, Hu, Qiang, Verkhoglyadova, Olga, Zank, Gary P., Lin, R. P. & Luhmann, J.), American Institute of Physics Conference Series, 1039, p. 410
6. Probing Heliospheric Asymmetries with an MHD-Kinetic model [114]
   Pogorelov, Nikolai V., Heerikhuisen, Jacob & Zank, Gary P., ApJ, 675, L41
7. MHD modeling of the outer heliosphere: Achievements and challenges [23]
   Pogorelov, Nikolai V., Zank, Gary P. & Ogino, Tatsuki, Advances in Space Research, 41, 306
8. Implications of solar wind suprathermal tails for IBEX ENA images of the heliosheath [64]
   Prested, C., Schwadron, N., Passuite, J., Randol, B., Stuart, B., Crew, G., Heerikhuisen, J., Pogorelov, N., Zank, G., Opher, M., Allegrini, F., McComas, D. J., Reno, M., Roelof, E., Fuselier, S., Funsten, H., Moebius, E. & Saul, L., Journal of Geophysical Research (Space Physics), 113, A06102

2007

1. The Effects of Global Heliospheric Asymmetries on Energetic Neutral Atom Sky Maps [46]
   Heerikhuisen, J., Pogorelov, N. V., Zank, G. P. & Florinski, V., ApJ, 655, L53
2. Termination Shock Asymmetries as Seen by the Voyager Spacecraft: The Role of the Interstellar Magnetic Field and Neutral Hydrogen [118]
   Pogorelov, Nikolai V., Stone, Edward C., Florinski, Vladimir & Zank, Gary P., ApJ, 668, 611
3. The interaction of turbulence with gas dynamic shocks [5]
   Zank, G. P., Kryukov, I., Shaikh, Dastgeer, Borovikov, S., Ao, X. & Pogorelov, N., Turbulence and Nonlinear Processes in Astrophysical Plasmas (Editors: Shaikh, Dastgeer & Zank, Gary P.), American Institute of Physics Conference Series, 932, p. 233

2006

1. Three-dimensional Features of the Outer Heliosphere due to Coupling between the Interstellar and Interplanetary Magnetic Fields. II. The Presence of Neutral Hydrogen Atoms [135]
   Pogorelov, Nikolai V., Zank, Gary P. & Ogino, Tatsuki, ApJ, 644, 1299
2. The Direction of the Neutral Hydrogen Velocity in the Inner Heliosphere as a Possible Interstellar Magnetic Field Compass [37]
   Pogorelov, Nikolai V. & Zank, Gary P., ApJ, 636, L161

2005

1. Heliopause stability in the presence of neutral atoms: Rayleigh-Taylor dispersion analysis and axisymmetric MHD simulations [71]
   Florinski, V., Zank, G. P. & Pogorelov, N. V., Journal of Geophysical Research (Space Physics), 110, A07104
2. Heliopause stability revisited: dispersion analysis and numerical simulations [4]
   Florinski, V., Zank, G. P. & Pogorelov, N. V., Advances in Space Research, 35, 2061
3. Radiative effects in supersonic wind accretion onto gravitating objects [2]
   Kryukov, I., Pogorelov, N., Anzer, U., Börner, G. & Bisnovatyi-Kogan, G., A&A, 441, 863
4. Coupling of the interstellar and interplanetary magnetic fields at the heliospheric interface: The effect of neutral hydrogen atoms [13]
   Pogorelov, Nikolai V. & Zank, Gary P., Advances in Space Research, 35, 2055
5. Classical MHD shocks: theory and numerical simulation [1]
   Pogorelov, Nikolai V., The Physics of Collisionless Shocks: 4th Annual IGPP International Astrophysics Conference (Editors: Li, Gang, Zank, Gary P. & Russell, C. T.), American Institute of Physics Conference Series, 781, p. 42

2004

1. On the Possibility of a Strong Magnetic Field in the Local Interstellar Medium [59]
   Florinski, V., Pogorelov, N. V., Zank, G. P., Wood, B. E. & Cox, D. P., ApJ, 604, 700
2. Comment on ``On the interaction of the solar wind with the interstellar medium: Field aligned MHD flow'' by R. Ratkiewicz and G. M. Webb [5]
   Pogorelov, Nikolai V. & Matsuda, Takuya, Journal of Geophysical Research (Space Physics), 109, A02110
3. Three-dimensional Features of the Outer Heliosphere Due to Coupling between the Interstellar and Interplanetary Magnetic Fields. I. Magnetohydrodynamic Model: Interstellar Perspective [108]
   Pogorelov, Nikolai V., Zank, Gary P. & Ogino, Tatsuki, ApJ, 614, 1007

2003

1. Galactic cosmic ray transport in the global heliosphere [92]
   Florinski, V., Zank, G. P. & Pogorelov, N. V., Journal of Geophysical Research (Space Physics), 108, 1228
2. Galactic cosmic rays in the global heliosphere: an axisymmetric model [0]
   Florinski, V., Zank, G. P. & Pogorelov, N. V., Solar Wind Ten (Editors: Velli, Marco, Bruno, Roberto, Malara, Francesco & Bucci, B.), American Institute of Physics Conference Series, 679, p. 644
3. The influence of radiative effects on the accretion onto stellar magnetospheres [1]
   Kryukov, I. A., Pogorelov, N. V., Anzer, U., Bisnovatyi-Kogan, G. S. & Börner, G., A&A, 402, 13

2001

1. MHD modeling of the outer heliosphere: Numerical Aspects [0]
   Pogorelov, Nikolai V., Cospar, 11, 33

2000

1. Towards steady-state solutions for supersonic wind accretion on to gravitating objects [30]
   Pogorelov, N. V., Ohsugi, Y. & Matsuda, T., MNRAS, 313, 198
2. Accretion Flows: Aspects of Gas Dynamic Modeling [1]
   Pogorelov, Nikolai V. & Kryukov, Igor A., Astrophysics and Space Science, 274, 275
3. Nonstationary Phenomena in the Solar Wind and Interstellar Medium Interaction [17]
   Pogorelov, Nikolai V., Astrophysics and Space Science, 274, 115

1996

1. Shock-Capturing Approach and Nonevolutionary Solutions in Magnetohydrodynamics [62]
   Barmin, A. A., Kulikovskiy, A. G. & Pogorelov, N. V., Journal of Computational Physics, 126, 77