SH: Solar and Heliospheric Phenomena

SH.1: Sun and Corona

SH.1.2: Energetic photons and electrons
  • 0173: Simulations of Hard X ray and Gamma Ray Response in CsI(Tl) Scintillator Detector, Radoslav Bucik, Karel Kudela, David Smith, p. 3
  • 0188: Time Scales of Hard X-ray and Radio Emissions of Large Proton Flares, Alexei Struminsky, Ivan Zimovets, p. 7
  • 0600: Extended inverse-Compton gamma-ray emission from the Sun seen by EGRET, E. Orlando, D. Petry, A.W. Strong, p. 11
  • 0939: Solar flares temporal profiles thin structure on timescales 33-92 sec in various energy bands by data of AVS-F apparatus onboard CORONAS-F satellite, I.V. Arkhangelskaja, A.I. Arkhangelsky, A.S. Glyanenko, et. al., p. 15
  • 0973: The High Energy Photons Emission from Solar Flares Observed by SZ2-XD, Huanyu Wang, Xinqiao Li, Yuqian Ma, et. al., p. 19
  • 1071: Study of the 28 October 2003 solar flare by means of 2.223 MeV gamma-emission, E.V. Troitskaia, L.I. Miroshnichenko, p. 23
SH.1.3: Solar neutrons
  • 0099: Simultaneous Detection of High-Energy Solar Neutrons and Protons at Chacaltaya Observatory on April 15, 2001, Y. Muraki, Y. Matsubara, S. Masuda, et. al., p. 29
  • 0191: Search for solar neutrons associated with series of X-class flares during the declining period of solar cycle 23, Y. Matsubara, Y. Muraki, T. Sako, et. al., p. 33
  • 0368: OSSE satellite and neutron monitor observations of solar neutrons in association with 1991 June 4 flare, K. Watanabe, R.J. Murphy, Y. Muraki, et. al., p. 37
  • 0371: Physics of ion acceleration in the solar flare on 2003 October 28 determines gamma-ray and neutron production, K. Watanabe, R.J. Murphy, G.H. Share, et. al., p. 41
  • 0374: Ion acceleration and neutral emission mechanisms for 2005 September 7 flare, K. Watanabe, R.J. Murphy, G.H. Share, et. al., p. 45
  • 0664: Upper limits on high-energy solar neutrons from satellite-detected flares with the Yangbajing neutron monitor, H. Tsuchiya, H. Miyasaka, E. Takahashi, et. al., p. 49
  • 0912: Emission profile of solar neutrons obtained from the ground-based observations for the 7 September 2005 event, T. Sako, K. Watanabe, Y. Muraki, et. al., p. 53
  • 1225: Energy spectrum for the solar neutron event of September 7 2005, derived from the SNT at Sierra Negra, L.X. González, J.F. Valdés-Galicia, O. Musalem, et. al., p. 57
SH.1.4: Energetic charged particles: spectra, composition, charge state
  • 0092: Comparing the ENA data to Voyager 1 ion measurements in the heliosheath: the puzzle of the H/He ratio, A. Czechowski, M. Hilchenbach, K.C. Hsieh, et. al., p. 63
  • 0405: Comparing Small and Large SEP Events and the Role of Flares and Shocks, H.V. Cane, I.G. Richardson, T.T. Von Rosenvinge, p. 67
  • 0525: CORONAS-F measurements of high-energy solar proton spectra, S.N. Kuznetsov, B.Yu. Yushkov, K. Kudela, et. al., p. 71
  • 0578: Geant4 applications in the heliospheric radiation environment , Pedro Brogueira, Patrícia Gonçalves, Ana Keating, et. al., p. 75
  • 0649: Acceleration and transport modeling in the 2000 May 1 SEP event, Y.Y. Kartavykh, W. Dröge, B. Klecker, et. al., p. 79
  • 0667: Ionic charge states of heavy ions associated with interplanetary shocks at 1AU, B. Klecker, E. Möbius, M.A. Popecki, et. al., p. 83
  • 0774: Energetic Solar Particle Charge Behavior During Source Acceleration, J. Pérez-Peraza, D. Rodríguez-Frías, L. Del Peral, et. al., p. 87
  • 1121: Persistent energetic 3He in the inner heliosphere, M.E. Wiedenbeck, C.M.S. Cohen, A.C. Cummings, et. al., p. 91
  • 1150: Comparing observations and expectations of SEP composition in the two December 2006 events, C.M.S. Cohen, G.M. Mason, R.A. Mewaldt, et. al., p. 95
  • 1186: The charge-to-mass dependence of solar energetic particle spectral breaks, R.A. Mewaldt, C.M.S. Cohen, D.K. Haggerty, et. al., p. 99
  • 1202: The High Energy Telescopes for the STEREO Mission, T.T. Von Rosenvinge, A.C. Cummings, R.A. Leske, et. al., p. 103
  • 1218: Observations of the December 2006 solar energetic particle events with the Low Energy Telescope (LET) on STEREO, R.A. Mewaldt, C.M.S. Cohen, A.C. Cummings, et. al., p. 107
SH.1.5: Particle acceleration on/near the Sun
  • 0140: Acceleration of solar cosmic rays in stochastic non-Gaussian electric fields, Ivan Zimovets, p. 113
  • 0352: Impulsive Neutral Current Sheet and stochastic acceleration vs Shock Wave acceleration spectra of Relativistic solar protons, J. Pérez-Peraza, A. Gallegos-Cruz, L.I. Miroshnichenko, et. al., p. 117
  • 0539: CORONAS-F satellite data on the delay between the proton acceleration on the Sun and their detection at 1 AU, S.N. Kuznetsov, V.G. Kurt, B.Yu. Yushkov, et. al., p. 121
SH.1.6: Interplanetary transport of solar energetic particles
  • 0024: Forecast of the Solar Proton Events according to the Rigidity Spectrum Variations of Cosmic Rays , V.M. Dvornikov, M.V. Kravtsova, A.A. Lukovnikova, et. al., p. 127
  • 0137: Modulation of Proton Fluxes at ~5 AU during the Largest SEP Events of 2005, Alexei Struminsky, Bernd Heber, Raul Gomez-Herrero, et. al., p. 131
  • 0245: Rapid cosmic ray fluctuations in real-time during the SEP events in December 2006, S.A. Starodubtsev, A.V. Grigoryev, I.G. Usoskin, et. al., p. 135
  • 0307: Comparison of theoretical and experimental values of the decay rate of SEP events, K. Kecskeméty, E.I. Daibog, Yu.I. Logachev, et. al., p. 139
  • 0361: Time scales of solar energetic particle events and solar wind stream types, S.W. Kahler, p. 143
  • 0366: Travel delays of impulsive SEPs due to turbulent lengthening of magnetic field lines, B.R. Ragot, S.W. Kahler, p. 147
  • 0455: Particle observations and propagation in the Three-Dimensional Heliosphere, O.E. Malandraki, R.G. Marsden, D. Lario, et. al., p. 151
  • 0626: Variations of Parameters of Rigidity Spectrum of Cosmic Rays during events of January, 2005, V.M. Dvornikov, M.V. Kravtsova, A.A. Lukovnikova, et. al., p. 155
  • 0653: Testing Transport Theories with Solar Energetic Particles, W. Dröge, Y.Y. Kartavykh, p. 159
  • 0819: Magnetic Storm Associated with Energetic Particle Event of January 21, 2005, S.N. Kuznetsov, Yu.I. Denisov, B.Yu. Yushkov, et. al., p. 163
  • 0907: X-ray flare characteristics and probability of solar proton events, A.V. Belov, E.A. Eroshenko, O.N. Kryakunova, et. al., p. 167
  • 0994: Characteristics of cumulative particle fluences at different heliospheric radii, Péter Király, p. 171
  • 1148: Forecasting of radiation hazard and the inverse problem for SEP propagation and generation in the frame of anisotropic diffusion and in kinetic approach, Lev Dorman, p. 175
  • 1189: Unusual solar energetic proton fluxes at 1 AU within an interplanetary CME, T. Mulligan, J.B. Blake, R.A. Mewaldt, p. 179
SH.1.7: Coronal mass ejections
  • 0153: Waiting time distribution of emissions in complex coronal mass ejections, A.L. Méndez Berhondo, R.E. Rodríguez Taboada, L. Alfonso Larralde, p. 185
  • 0232: SEP Acceleration at evolving CMEs with changing shock geometry, J. Kóta, p. 189
  • 1309: Magnetic Clouds: The Cylindrical Elliptic Approach , M. Vandas, A. Geranios, I. Antoniadou, et. al., p. 191
SH.1.8: Ground level events
  • 0033: Variations of Angular Distribution of Cosmic Rays during GLE Period on January 20, 2005, V.M. Dvornikov, A.A. Lukovnikova, V.E. Sdobnov, et. al., p. 197
  • 0168: Two-detector recordings of GLE’s at SANAE, P.H. Stoker, p. 201
  • 0172: Ground Level Events Recorded at Lomnicky Stit Neutron Monitor, Karel Kudela, Ronald Langer, p. 205
  • 0298: Ground-Level Enhancement of December 13, 2006 in muon hodoscopes data, D.A. Timashkov, Yu.V. Balabin, V.V. Borog, et. al., p. 209
  • 0349: Solar Cosmic Ray study with Neutron Monitors of a Various Design, Yu.V. Balabin, E.V. Vashenyuk, P.H. Stoker, p. 213
  • 0357: Observations of the December 2006 Particle Events at High Latitudes with the KET aboard Ulysses, B. Heber, A. Struminsky, I. Zimovets, et. al., p. 217
  • 0362: The GLE of December 13, 2006 according to the ground level and balloon observations, E.V. Vashenyuk, G.A. Bazilevskaya, Y.V. Balabin, et. al., p. 221
  • 0364: Gamma-ray emission from SEP interactions with solar wind ions, S.W. Kahler, B.R. Ragot, p. 225
  • 0376: A Maverick GLE: The Relativistic Solar Particle Event of December 13, 2006, John W. Bieber, John Clem, Paul Evenson, et. al., p. 229
  • 0402: Ground Level Enhancement of December 13, 2006 by the ground measurement data, V.G. Grigoryev, S.A. Starodubtsev, P.A. Krivoshapkin, et. al., p. 233
  • 0408: Response of IceTop tanks to low-energy particles, J.M. Clem, P. Niessen, S. Stoyanov, p. 237
  • 0461: Method of additional fluctuations for search of weak signals, Sergey Karpov, Leonty Miroshnichenko, p. 241
  • 0471: Identification of Solar Cosmic Ray Ground Level Enhancements at the Middle Latitudes, O.N. Kryakunova, R.U. Beisembaev, V.I. Drobzhev, et. al., p. 245
  • 0643: Two-component features of the two largest GLEs: February 23, 1956 and January 20, 2005, E.V. Vashenyuk, L.I. Miroshnichenko, Yu.V. Balabin, et. al., p. 249
  • 0658: Relativistic solar cosmic ray events (1956-2006) from GLE modeling studies, E.V. Vashenyuk, Yu.V. Balabin, L.I. Miroshnichenko, et. al., p. 253
  • 0680: Observing Multiplicity Effect during December 13, 2006 event on the Barentsburg Neutron Monitor, Yu.V. Balabin, B.B. Gvozdevsky, E.V. Vashenyuk, et. al., p. 257
  • 0715: Significant Solar Proton Events For Five Solar Cycles (1954-2007), M.A. Shea, D.F. Smart, p. 261
  • 0862: Analysis of the 20 January 2005 cosmic ray ground level enhancement, H. Moraal, K.G. McCracken, P.H. Stoker, p. 265
  • 0897: Two acceleration mechanisms for ground level enhancements, K.G. McCracken, H. Moraal, p. 269
  • 1002: The December 2006 GLE Event as seen from LARC, SVIRCO and OLC, M. Storini, E.G. Cordaro, M. Parisi, p. 273
  • 1009: Effects of the January 2005 GLE/SEP events on minor atmospheric components, M. Storini, A. Damiani, p. 277
  • 1073: Application of the NM-BANGLE model to GLE70, C. Plainaki, H. Mavromichalaki, A. Belov, et. al., p. 281
  • 1152: Milagro and Climax Measurements of the 2005 January 20 GLE Particle Spectrum, Trevor Morgan, Clifford Lopate, p. 285
  • 1182: A parameterized neutron monitor yield function for space weather applications, E.O. Flückiger, M.R. Moser, B. Pirard, et. al., p. 289

SH.2: Transient Phenomena in the Heliosphere

SH.2.1: Forbush decreases/Effects of coronal mass ejections
  • 0048: On the relationship of Forbush decrease event of May 2005 with solar parameters , Manjula Jain, M.L. Chauhan, S.K. Shrivastava, et. al., p. 295
  • 0054: Effects of Coronal Mass Ejections on the Long Term Cosmic Ray Modulation, Alejandro Lara, Rogelio Caballero-López, p. 299
  • 0177: Real-time database for high resolution Neutron Monitor measurements, C.T. Steigies, M. Thomann, O.M. Rother, et. al., p. 303
  • 0194: Study of two major Forbush decrease events of 2005 , M.L. Chauhan, S.K. Shrivastava, M.K. Richharia, et. al., p. 307
  • 0235: Mathematical Model of the Forbush Effect of the Galactic Cosmic Ray Intensity, A. Wawrzynczak, M.V. Alania, p. 311
  • 0305: Investigation of Forbush effects in muon flux measured in integral and hodoscopic modes, N.S. Barbashina, A.N. Dmitrieva, V.V. Borog, et. al., p. 315
  • 0381: Interplanetary Coronal Mass Ejections During 1996-2007, Ian Richardson, Hilary Cane, p. 319
  • 0382: IMP 8 GME Energetic Particle Observations Over Three Solar Cycles, Ian Richardson, Hilary Cane, Tycho Von Rosenvinge, et. al., p. 323
  • 0440: Forbush decreases: Energy dependence of the recovery, Ilya G. Usoskin, Gennady A. Kovaltsov, Olga G. Gladysheva, et. al., p. 327
  • 0647: Response of IMP 8 penetrating proton channel to galactic cosmic ray modulation, H.S. Ahluwalia, C. Lopate, p. 331
  • 0716: Determination of ICME Geometry and Orientation from Ground Based Observations of Galactic Cosmic Rays, T. Kuwabara, J.W. Bieber, P. Evenson, et. al., p. 335
  • 0729: Heliospheric Physics with IceTop, T. Kuwabara, J.W. Bieber, R. Pyle, p. 339
  • 0804: Globally Non-Simultaneous Forbush Decrease Events, S.Y. Oh, Y. Yi, p. 343
  • 0980: First Spaceweather Observations at MuSTAnG — the Muon Spaceweather Telescope for Anisotropies at Greifswald, R. Hippler, A. Mengel, F. Jansen, et. al., p. 347
  • 0985: A study of the Forbush decrease event of September 11, 2005 with GRAND, J. Poirier, M. Herrera, P. Hemphill, et. al., p. 351
  • 1153: Calibrating the Milagro Instrument for Measuring Forbush Decreases, James M. Ryan, p. 355
  • 1196: Heliospheric Transient Structures Associated with Short-Period Variations in the GCR Flux, T. Mulligan, J.B. Blake, D. Shaul, et. al., p. 359
SH.2.2: Corotating regions/shocks
  • 0350: Recurrent Modulation of Jovian Electron intensities: Ulysses KET measurements, P. Dunzlaff, B. Heber, O. Sternal, et. al., p. 363
  • 0419: Latitudinal distribution of galactic cosmic ray density and its effect on the CIR-driven modulations of density and density gradient measured by the Muon detector network, Y. Okazaki, K. Munakata, H. Fukunishi, et. al., p. 367
  • 0924: Upstream events and recurrent CIR-accelerated particle events observed by Stereo/SEPT, R. Müller-Mellin, R. Gomez-Herrero, S. Böttcher, et. al., p. 371
  • 1242: Observations of corotating interaction regions from STEREO and ACE, R.A. Leske, R.A. Mewaldt, G.M. Mason, et. al., p. 375
SH.2.3: Propagating interaction regions/shocks
  • 0135: Recurrent variations in the high-energy cosmic ray intensity, G.F. Krymsky, V.P. Mamrukova, P.A. Krivoshapkin, et. al., p. 381
  • 0650: Gnevyshev gap in the annual frequency distribution of cosmic ray decreases and Ap index, H.S. Ahluwalia, K. Critchfield, R. Ygbuhay, et. al., p. 385
  • 1015: Particle acceleration at the interaction of shocks and discontinuities, Z. Németh, p. 389
  • 1297: The Mexican Array Radio Telescope (MEXART). An Interplanetary Scintillation Array in Mexico in the IHY, J.A. Gonzalez-Esparza, E. Andrade, A. Carrillo, et. al., p. 393
SH.2.4: Merged interaction regions
  • 0453: 399-Day Variations in Solar Wind Parameters, V.E. Timofeev, L.I. Miroshnichenko, N.G. Skryabin, et. al., p. 399

SH.3: Galactic Cosmic Rays in the Heliosphere

SH.3.1: Acceleration and modulation models
  • 0045: Nonlinear Field Line Random Walk and Generalized Compound Diffusion of Charged Particles, A. Shalchi, I. Kourakis, p. 405
  • 0047: Parallel and Perpendicular Transport of Charged Particles in the Solar System, A. Shalchi, J.W. Bieber, W.H. Matthaeus, et. al., p. 409
  • 0083: Reentrant heliospheric particles in 2D drift model, Pavol Bobik, Karel Kudela, Matteo Boschini, et. al., p. 413
  • 0134: The galactic cosmic ray intensity during the minima of solar cycles 21-24: the radial profiles and time behavior in the inner heliosphere and in the heliosheath, M.B. Krainev, M.S. Kalinin, W.R. Webber, p. 417
  • 0216: Influence of Jupiter on the Interplanetary Magnetic Field and Cosmic-Ray, V.E. Timofeev, L.I. Miroshnichenko, S.N. Samsonov, et. al., p. 421
  • 0292: Realistic modelling of the termination shock position using Voyager 2 solar wind data, J.L. Snyman, S.E.S. Ferreira, M.S. Pogieter, et. al., p. 425
  • 0310: Electron anisotropies in the inner heliosphere, G.S. Nkosi, M.S. Potgieter, S.E.S. Ferreira, p. 429
  • 0360: Suppression of particle drifts by magnetic turbulence, J. Minnie, J.W. Bieber, R.A. Burger, et. al., p. 433
  • 0479: The Effect of the Heliospheric Diffusion Tensor on 26-Day Recurrent Cosmic-Ray Variations, R.A. Burger, N.E. Engelbrecht, p. 437
  • 0480: The Effect of the Dissipation Range on the Heliospheric Modulation of Cosmic-Ray Electrons, N.E. Engelbrecht, R.A. Burger, p. 439
  • 0769: CALET measurements of cosmic ray electrons in the heliosphere, Y. Komori, S. Torii, Y. Shimizu, et. al., p. 441
  • 0807: The effect of a modified Parker field on the modulation of the galactic cosmic rays, Shoko Miyake, Shohei Yanagita, p. 445
  • 0808: The Effect of a Latitudinal Dependent Solar Wind Speed on Cosmic-Ray Modulation in a Fisk-type Heliospheric Magnetic Field, M. Hitge, R.A. Burger, p. 449
  • 0885: The Diffusion Tensor of Energetic Particles in Different HMF Configurations, O. Sternal, A. Burger, B. Heber, et. al., p. 451
  • 1149: Solar Modulation of Low-Energy Antiproton and Proton Spectra Measured by BESS, J.W. Mitchell, K. Abe, H. Fuke, et. al., p. 455
  • 1310: Stochastic simulation of cosmic ray modulation: Effect of a wavy HCS, Ilya G. Usoskin, Katja Alanko-Huotari, Kalevi Mursula, et. al., p. 459
SH.3.2: Long-term variations (11 year and longer cycles)
  • 0132: On the detailed information in the regular balloon monitoring of cosmic rays: the description of the method and some new results, M.B. Krainev, p. 465
  • 0133: The regular measurements of the GCR intensity in the stratosphere in comparison with the measurements by the neutron monitors and aboard the IMP8 spacecraft, M.B. Krainev, A.V. Belov, R.T. Gushchina, et. al., p. 469
  • 0225: Manifestation of the solar global field changes in the long-term cosmic rays modulation, R.T. Gushchina, A.V. Belov, V.N. Obridko, et. al., p. 473
  • 0242: Cosmic Ray Positron Fraction Observations during the A- Magnetic Solar Minimum, John Clem, Paul Evenson, p. 477
  • 0317: On the Relation of Cosmic Ray Fluxes with Solar Activity Parameters, Victor Okhlopkov, Yuri Stozhkov, p. 481
  • 0326: Parameterization of galactic cosmic-ray fluxes during opposite polarity solar cycles for future space missions, C. Grimani, M. Fabi, N. Finetti, et. al., p. 485
  • 0506: The Altcriss project on board the International Space Station, M. Casolino, M. Minori, P. Picozza, et. al., p. 489
  • 0642: Observed galactic cosmic ray 11-year modulation for cycle 23, H.S. Ahluwalia, R.C. Ygbuhay, p. 493
  • 0724: New Index for the Explanation of the 11-Year Variations of the Galactic Cosmic Ray Intensity, M.V. Alania, K. Iskra, M. Siluszyk, p. 497
  • 0740: Methane Sulphonic Acid trend associated with Beryllium-10 and Solar Irradiance, Jaime Osorio, Blanca Mendoza, Victor Velasco, p. 501
  • 0741: Solar cycle dynamics of the quasi-biennial periodicities associated with the coupling of a double solar dynamo, Luis de Caso, Blanca Mendoza, Victor Velasco, p. 505
  • 0805: Modulation Cycles of GCR Diurnal Anisotropy Variation, Y. Yi, S.Y. Oh, p. 509
  • 0874: Characteristic Features of the 11-Year Cycle in Cosmic Ray Data, M. Laurenza, S. Giangrave, M. Storini, et. al., p. 513
  • 0918: Dependence of the Rigidity Spectrum of Galactic Cosmic Ray Intensity Variations on the Range of the Particles Rigidity , K. Iskra, M.V. Alania, p. 517
  • 0919: Variation of Solar “11-year cycle” during the grand solar minimum in the 4th century BC by measurement of 14C content in tree rings, K. Nagaya, K. Kitazawa, K. Masuda, et. al., p. 521
  • 0952: Solar activity variation in grand solar minima deduced from cosmogenic radio-carbon, K. Masuda, K. Nagaya, K. Kitazawa, et. al., p. 525
  • 0988: Sun’s Shadow in the Solar Cycle 23 Observed with the Tibet Air Shower Array and Comparison with Simulation Studies, Masaki Nishizawa, p. 529
  • 0998: More on the Gnevyshev Gap During the 11-year Solar Activity Cycle, M. Storini, S. Giangrave, P. Diego, et. al., p. 533
  • 1147: On the Relative Role of Drift and Convection-Diffusion Effects in the Long-Term CR Variations on the Basis of NM and Satellite Data, Lev Dorman, p. 537
  • 1164: Paleo-Astrophysical data in relation to temporal characteristics of the solar magnetic field, G.A.M. Dreschhoff, p. 541
  • 1243: Long Term Changes in the Residual Modulation of the Galactic Cosmic Radiation, K.G. McCracken, p. 545
  • 1248: The 2300 year Modulation in the Galactic Cosmic Radiation, K.G. McCracken, J. Beer, p. 549
  • 1263: The 120-yrs solar cycle of the cosmogenic isotopes, V.M. Velasco, B. Mendoza, J.F. Valdes-Galicia, p. 553
  • 1265: The Change in Cosmic Ray Intensity Variation with the Solar Wind Velocity (Using GRAPES-3 muon narrow angle telescopes and Kiel neutron monitor), H. Kojima, Y. Hayashi, K. Hayashi, et. al., p. 557
  • 1270: A Solar Activity Dependence of A Solar Wind Effect on Cosmic Ray Intensity Variations, H. Kojima, Y. Hayashi, K. Hayashi, et. al., p. 561
SH.3.3: Gradients
  • 0053: Galactic Cosmic Ray Modulation in the Heliosphere at Solar Maximum, O.G. Morales-Olivares, R.A. Caballero–López, p. 567
  • 0354: The radial gradient of galactic cosmic rays: Ulysses KET and ACE CRIS Measurements , J. Gieseler, B. Heber, P. Dunzlaff, et. al., p. 571
SH.3.4: Anisotropies
  • 0101: Two-dimensional observation on TeV Cosmic-ray solar diurnal variation using the Tibet Air Shower Array, Yi Zhang, p. 577
  • 0130: Sidereal daily variation in the cosmic ray intensity, G.F. Krymsky, P.A. Krivoshapkin, S.K. Gerasimova, et. al., p. 581
  • 0131: Vortex electric field in interplanetary medium and the 11-year modulation of galactic cosmic ray anisotropy, G.F. Krymsky, P.A. Krivoshapkin, V.P. Mamrukova, et. al., p. 585
  • 0229: The Origin of Solar Diurnal Variation of Galactic Cosmic Rays above 100 GV, J. Kóta, K. Munakata, S. Yasue, et. al., p. 589
  • 0256: Implication of the sidereal anisotropy of ~5 TeV cosmic ray intensity observed with the Tibet III air shower array, The Tibet As$\gamma$ Collaboration, p. 593
  • 0347: Study of the 27-day Variation of the GCR Anisotropy, R. Modzelewska, M.V. Alania, p. 597
  • 0358: On the Energy Spectrum of the 27-Day Variation of the Galactic Cosmic Ray Intensity, A. Gil, M.V. Alania, p. 601
  • 0394: Observation of the Anisotropy of 10 TeV Primary Cosmic Ray Nuclei Flux with the Super-Kamiokande-I Detector, Yuichi Oyama, p. 605
  • 0445: The study of Periodic Variation of Cosmic Ray intensity with the Tibet III Air Shower Array , A.-F. Li, H.-B. Hu, J.-Y. Li, et. al., p. 609
  • 0492: Direction and Magnitude of the Anisotropy of Cosmic Rays of TeV Energies, A.S. Lidvansky, Yu.M. Andreyev, D.D. Dzhappuev, et. al., p. 613
  • 0722: A Harmonic Analysis of the Large Scale Cosmic Ray Anisotropy, B.E. Kolterman, p. 617
  • 0857: Study of the long time-scale variability of cosmic rays with the ARGO-YBJ experiment, Alba Cappa, Irina James, Paola Salvini, p. 621
  • 0937: ACE/Wind multispacecraft analysis of the magnetic correlation in the solar wind, S. Dasso, W.H. Matthaeus, J.M. Weygand, et. al., p. 625
  • 1006: Interactive DataBase of Cosmic Ray Anisotropy (DB A10), A.S. Asipenka, A.V. Belov, E.F. Eroshenko, et. al., p. 629
SH.3.5: Spectra, composition and charge-state
  • 0377: Virtual Cosmic Ray Observatory (ViCRO), John F. Cooper, Robert E. McGuire, Nand Lal, et. al., p. 635
  • 0501: Solar cosmic ray observations with PAMELA experiment, M. Casolino, p. 639
  • 0793: Technical data acquisition equipment for GOSAT, Yasutomo Sasaki, Haruhisa Matsumoto, Tateo Goka, et. al., p. 643
  • 0811: Charge and Mass Composition of Heavy Ions in the Earth’s Radiation Belt, Makoto Hareyama, Nobuyuki Hasebe, Satoshi Kodaira, et. al., p. 647
  • 0960: Modulation of the galactic proton energy spectrum in the inner heliosphere, K. Kecskeméty K., Yu.I. Logachev, M.A. Zeldovich, et. al., p. 651
SH.3.6: Terrestrial effects: cutoffs, cosmic rays in atmosphere, cosmogenic nucleides
  • 0058: Neutron Flux Meter at Basic Environmental Observatory Moussala , Alexander Mishev, Alexander Boukliyski, Lorenzo Visca, et. al., p. 657
  • 0209: GCR-induced Photon Luminescence of the Moon: The Moon as a CR Detector, Thomas Wilson, Kerry Lee, p. 661
  • 0210: Cosmic Ray Flux in the Presence of a Neutral Background, Thomas Wilson, M.A.K. Lodhi, Abel Diaz, p. 665
  • 0224: Atmospheric Transport Inferred from Seasonal Variations in Cosmogenic Be-7 Concentrations, M. Yoshimori, p. 669
  • 0240: Variation of 14C concentrations of single-yr tree rings at the rapid change in 2600-yrBP, Yui Takahashi, Hirohisa Sakurai, Kayo Suzuki, et. al., p. 673
  • 0265: Observation of the gradual increases and bursts of energetic radiation in association with winter thunderstorm activity, Tatsuo Torii, Takeshi Sugita, Yasushi Muraki, p. 677
  • 0276: Fluxes of Hadrons, Muons and Electromagnetic Components at the Mountain Altitude induced by Hadrons in the Atmosphere with Energies between 100MeV and 1000 GeV, Jean-Noel Capdeville, Hiroaki Menjyo, Yasushi Muraki, p. 681
  • 0296: Muon diagnostics of the Earth’s atmosphere, near-terrestrial space and heliosphere: first results and perspectives, D.A. Timashkov, N.S. Barbashina, V.V. Borog, et. al., p. 685
  • 0315: Muon flux in the atmosphere at solar activity minimum, V.S. Makhmutov, Y.I. Stozhkov, N.S. Svirzhevsky, et. al., p. 689
  • 0321: Atlantic Hurricanes, Geomagnetic Changes and Cosmic Ray Variations. Part I. Geomagnetic Disturbances and Hurricane Intensifications, S. Kavlakov, J. Elsner, Jorge Perez-Peraza, p. 693
  • 0323: Atlantic Hurricanes, Geomagnetic Changes and Cosmic Ray Variations. Part II. Forbush Decreases and Hurricane Velocity Changes, S. Kavlakov, J. Elsner, J. Perez-Peraza, p. 697
  • 0340: Method and results of the analysis of data on vertical rigidities of cosmic rays cutoff in the geomagnetic field, R.A. Nymmik, M.I. Panasyuk, V.V. Petrukhin, et. al., p. 701
  • 0433: Numerical Model of Cosmic Ray Induced Ionization in the Atmosphere, Ilya G. Usoskin, Gennady A. Kovaltsov, p. 705
  • 0503: Observations of primary, trapped and quasi trapped particles with PAMELA experiment, M. Casolino, p. 709
  • 0541: The atmospheric muon flux in correlation with temperature variations in the low stratosphere (50-200 mb)., M. Bertaina, L. Briatore, A. Longhetto, et. al., p. 713
  • 0556: The yearly and seasonal variations from 7-year data set of daily cosmogenic nuclide Be-7 concentrations in the atmosphere, Satoshi Kikuchi, Hirohisa Sakurai, Shuichi Gunji, et. al., p. 717
  • 0559: Size distribution of aerosols attached by cosmogenic nuclide Be-7 in the atmosphere at the TA telescope station, Satoshi Kikuchi, Hirohisa Sakurai, Shuichi Gunji, et. al., p. 721
  • 0718: Solar proton fluence for 31 solar cycles derived from nitrate enhancements in polar ice, D.F. Smart, M.A. Shea, G.A.M. Dreschhoff, et. al., p. 725
  • 0725: Observations of Impulsive Nitrate Enhancements Associated With Ground-Level Cosmic Ray Events 1-4 (1942-1949), L. Kepko, H. Spence, M.A. Shea, et. al., p. 729
  • 0727: World Grid of Calculated Cosmic Ray Vertical Cutoff Rigidities for Epoch 1995.0, D.F. Smart, M.A. Shea, p. 733
  • 0730: World Grid of Calculated Cosmic Ray Vertical Cutoff Rigidities for Epoch 2000.0, D.F. Smart, M.A. Shea, p. 737
  • 0849: Experiments with two calibration neutron monitors, H. Krüger, H. Moraal, J.W. Bieber, et. al., p. 741
  • 0867: Detection of gamma-rays from winter thunderclouds along the coast of Japan Sea, T. Enoto, H. Tsuchiya, S. Yamada, et. al., p. 745
  • 0916: Cosmic Ray induced ionization in the upper, middle and lower atmosphere simulated with CORSIKA code  , Peter Velinov, Alexander Mishev, p. 749
  • 0932: Observation of thermal neutron flux variations connected with Lunar periods, V.V. Alekseenko, D.D. Djappuev, Yu.M. Gavriluk, et. al., p. 753
  • 0966: Measurement of Cosmic Ray Neutron Spectra in the Energy Region of 20-200 MeV at the Summit of Mauna Kea and Several Different Altitudes, Ryozo Takasu, Yoshiharu Tosaka, Hideya Matsuyama, et. al., p. 757
  • 1000: An Application of Cosmic-Ray Neutron Measurements to the Determination of the Snow Water Equivalent, E. Paquet, M. Laval, L.M. Basalaev, et. al., p. 761
  • 1004: Long-term changes in cosmic rays derived from cosmogenic radionuclides, J. Beer, K.G. McCracken, J. Abreu, et. al., p. 765
  • 1032: Characteristics of near real-time cutoff calculations on a local and global scale, R. Bütikofer, E.O. Flückiger, L. Desorgher, p. 769
  • 1083: Effect of solar protons on the middle atmosphere composition during GLE 13 December, 2006, A.S. Kirillov, Yu.V. Balabin, E.V. Vashenyuk, et. al., p. 773
  • 1093: Coupling Functions for NM-64 and NM Without Lead Derived on the Basis of Calculated Apparent Cutoff Rigidities for CR Latitude Survey from Antarctica to Italy in Minimum of Solar Activity, L.I. Dorman, O.A. Danilova, M.I. Tyasto, et. al., p. 777
  • 1099: Electric Storm Effects on the Soft and Hard Cosmic Ray Components Observed in Mexico City, J. Alvarez-Castillo, J.F. Valdés-Galicia, p. 781
  • 1165: On the trend of Atlantic Hurricane with Cosmic Rays, J. Pérez-Peraza, V. Velasco, S. Kavlakov, et. al., p. 785
  • 1222: On a plausible relation between Cosmic Rays and the Antarctic ozone hole size, M. Alvarez-Madrigal, J. Pérez-Peraza, V. Velasco, p. 789
  • 1303: Cosmic Rays and Global Warming, T. Sloan, A.W. Wolfendale, p. 793

SH.4: Anomalous component in the heliosphere

SH.4.1: Theory and models, origin and acceleration
  • 0116: Ion Acceleration and Alfvén wave excitation at interplanetary shocks, E.G. Berezhko, S.N. Taneev, p. 799
  • 0956: Radial diffusion coefficients of 1-30 MeV protons in the outer heliosphere, K. Kecskeméty K., Yu.I. Logachev, M.A. Zeldovich, p. 803
SH.4.2: Gradients and time variations
  • 0734: Changing anomalous cosmic ray oxygen radial intensity gradients between 1 AU and Voyager with the return to solar minimum, R.A. Leske, A.C. Cummings, C.M.S. Cohen, et. al., p. 807
SH.4.3: Spectra, composition and charge state
  • 0663: Cosmic-ray helium intensities over the solar cycle from ACE, G.A. De Nolfo, W.R. Binns, C.M.S. Cohen, et. al., p. 813

SH.5: Cosmic Rays at the Termination Shock and in the Heliosheath

SH.5.1: Cosmic ray measurements
  • 0255: Analysis of Cosmic Ray Data from Regular Balloon Experiments and Voyager – 1, 2 Spacecraft , Yuri Stozhkov, Vladimir Makhmutov, Nikolay Svirzhevsky, p. 819
  • 0947: Some implications of recent Voyager 1 and 2 omnidirectional and directional energetic particle data, Péter Király, p. 823
  • 1118: Possible role of transients on the energy spectra of energetic particles at the solar wind termination shock, A.C. Cummings, E.C. Stone, p. 827
  • 1161: Voyager observations of energetic particles near the solar wind termination shock, E.C. Stone, A.C. Cummings, F.B. McDonald, et. al., p. 831
SH.5.2: Other measurements
  • 0090: Energetic neutral atom observations and their implications on modeling the heliosheath, M. Hilchenbach, R. Kallenbach, A. Czechowski, et. al., p. 837
  • 0768: Time-of-Flight Detector System of the IBEX-Lo Sensor with Low Background Performance for Heliospheric ENA Detection, E. Möbius, S. Fuselier, M. Granoff, et. al., p. 841
SH.5.3: Cosmic ray theory and modeling
  • 0055: Temporal and solar polar field effects on anomalous cosmic ray modulation at the termination shock and in the heliosheath, R.A. Caballero–López, H. Moraal, F.B. McDonald, p. 847
  • 0077: Effects of Upstream Turbulence on the Termination Shock and Inner Heliosheath, J.R. Jokipii, J. Giacalone, p. 851
  • 0231: Anomalous cosmic rays at a blunt termination shock, J. Kóta, p. 853
  • 0287: The transport and acceleration of anomalous cosmic rays in the inner heliosheath, S.E.S. Ferreira, M.S. Pogieter, K. Scherer, p. 857
  • 0386: Niagara Falls Cascade Model for Interstellar Energetic Ions in the Heliosheath, John F. Cooper, p. 861
  • 1157: Stochastic acceleration in the heliosheath: effect on anomalous cosmic ray spectra, H. Moraal, R.A. Caballero-Lopez, V. Ptuskin, p. 865