| No |
Presenter/
corresponding author |
Title |
Authors |
| 1.03 |
I.Sabbah |
First geomagnetic storm ever observed from the Middle East using cosmic rays |
I. Sabbah, K. Munakata, M. L.Duldig, A. Fushishita, C. Kato, S. Yasue, T. Kuwabara, J. W., Bieber, P. Evenson, M. R. Da Silva, A. Dal Lago, N. J. Schuch, Z. Fujii, and J. E. Humble |
| 1.04 |
S. Kavlakov |
Atlantic hurricanes, geomagnetic disturbances and cosmic ray intensity changes. |
S. Kavlakov |
| 1.08 |
A.Tkachenko |
The trigger system preparation of the NUCLEON space experiment. |
V. Boreiko, N. Gorbunov, V. Grebenyuk, A. Kalinin, Z. Krumstein, D. Naumov, Nguen Man Sat, E. Plotnikova, D. Podorozhnyi, S. Porokhovoy, B. Sabirov, A. Sadovsky, V. Stolupin, A.Tkachenko, and L. Tkachev |
| 1.09 |
A.N.Dmitrieva |
Calculation of differential temperature coefficients for muons at different zenith angles |
A.N.Dmitrieva, R.P.Kokoulin, A.A.Petrukhin, D.A.Timashkov |
| 1.10 |
W. Rühm |
Continuous measurements of secondary neutrons from cosmic radiation at low atmospheric and low geomagnetic shielding by means of Bonner Sphere Spectrometers |
W. Rühm, V. Mares, C. Pioch, E. Weitzenegger, H.G. Paretzke |
| 1.11 |
Y.I. Stozhkov |
Is global cooling process of climate real or not? |
Ermakov V.I., Okhlopkov V.P., Stozhkov Y.I. |
| 1.12 |
Y.I. Stozhkov |
Influence of atmospheric processes on Be-10 atom concentrations |
Stozhkov Y.I. |
| 1.14 |
Y.I. Stozhkov |
Effective cross-sections and ionization rates of the atmosphere by cosmic rays |
Ermakov V.I, Stozhkov Y.I., Svirzhevsky N. |
| 1.15 |
A.W.Wolfendale |
Cosmic Rays and Global Warming |
Erlykin A.D., Gyalai G., Kudela K., Sloan T., Wolfendale A.W. |
| 1.16 |
V. Yanke |
Universal Recording System for the Stations of Cosmic Rays |
Gvozdevsky B., Kartyshov V., Klepach E., Basalaev M., Sarlanis H., Smirnov D., Shchepetov |
| 1.17 |
V. Yanke |
Temperature effect of the muon component of cosmic ray and practical possibilities its accounting |
Berkova M., Belov A., Eroshenko E., Klepach E., Yanke V. |
| 1.20 |
E. Eroshenko |
Relationships between cosmic ray neutron flux and rain flows |
roshenko E., Velinov P., Belov A., Yanke V., Mishev A., Tassev Y. |
| 1.21 |
A.Mishev |
Relation between rain flows and neutron flux at Basic Environmental Observatory Moussala |
A. Mishev, J. Stamenov |
| 1.23 |
Y. Muraki |
Cosmic Ray Tracks Observed by New type Cloud Chambers |
Y. Muraki, F. Kajino, T. Yamamoto, Y. Kuroda and H. Higashioka |
| 1.26 |
D.Marinov |
Space weather observations with four SREM radiation monitors |
Marinov D., Hajdas W., Schlumpf N., Desorgher L., Evans H., Nieminen P. |
| 1.27 |
I. Angelov |
Cosmic rays flux and precipitation |
I. Angelov, J. Stamenov, S. Dimitrova |
| 1.28 |
I. Angelov |
Application of water cherenkov detectors for muon telescopes |
I. Angelov, E. Malamova, J. Stamenov |
| 1.29 |
J. Štetiarová |
Biochemical parameters of human health monitored in season of low and high solar activity |
J. Štetiarová, O. Dzvoník, K. Kudela, P. Daxner |
| 1.30 |
R. Bütikofer |
Effective radiation dose for selected intercontinental flights during the GLEs on 20 January 2005 and 13 December 2006 |
Bütikofer R., Flückiger E.O., Desorgher L., Pirard B. |
| 1.31 |
R.Shkevov |
Investigation of the onboard instruments photocurrent during solar maximum |
Chapkunov S., Bankov N., Shkevov R., Buchvarova M. |
| 1.33 |
V.Rusov |
Galactic cosmic ray – clouds effect and bifurcation model of the Earth global climate |
Rusov V., Glushkov A., Vaschenko V., Myhalus O.T., Kosenko S., Mavrodiev S., Vachev B. |
| 1.37 |
T. Sloan |
Cosmic Rays and the Climate |
Terry Sloan |
| |
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|
| 2.00 |
E.E. Antonova |
Regular and turbulent mechanisms of relativistic electron acceleration in the magnetosphere if the Earth: Theoretical treatment and results of experimental observations |
Antonova E. E., Bahareva M. F., Kirpichev I. P., Myagkova. I. N., Ovchinnikov I. L., Orlova K. G., Stepanova M. V., Riazantseva M. O., Vovchenko V. V. |
| 2.01 |
V. Mikhailov |
Trapped charge particles measurements in radiation belts by PAMELA instrument |
V.Mikhailov on behaviour of PAMELA collaboration |
| 2.02 |
L. Grishantseva |
Secondary electron and positron fluxes in the Earth magnetosphere near the geomagnetic equator |
Liubov Grishantseva on behavior of the PAMELA collaboration |
| 2.05 |
M. Gervasi |
Nuclear Abundances and Fluxes inside the magnetosphere |
obik P., Boella G., Boschini M.J., Gervasi M., Grandi D., Kudela K., Pensotti S., Rancoita P.G. |
| 2.14 |
M. Slivka |
The geometry of relativistic electron fluxes maxima during strong magnetic storms time according CORONAS-F data |
Slivka M. |
| 2.15 |
A. Mishev |
Recent Modeling of Galactic Cosmic Rays induced Ionization in the Earth atmosphere |
Mishev A., Velinov P.I.Y. |
| 2.16 |
Y. Muraki |
The Energy Resolution of Solar Neutron Detector that will be exposed at the JEM of ISS |
Koga K., Goka T., Matsumoto H., Muraki Y. |
| 2.17 |
I.N. Myagkova |
Extreme values of SEP penetration boundaries in the Earth's magnetosphere |
Myagkova I.N., Panasyuk M.I., Kudela K., Yushkov B.Yu, Bogomolov A.V. |
| 2.19 |
J. Baláž |
Precipitating Energetic Electrons at high Latitude: PEEL data from HotPay-2 mission |
Baláž J., Kudela K., Sarris T., Strhárský I. |
| 2.20 |
P. Bobik |
On the Calculations of Cosmic Ray Transmission Function |
Bobik P., Kudela K. and Bučík R. |
| |
|
|
|
| 3.00 |
B. Klecker |
Energetic particles in the heliosphere |
Klecker B. |
| 3.02 |
E. Daibog |
The influence of the Earth magnetosphere on solar and galactic particle fluxes at 1 AU |
Daibog E.I., Logachev Yu.I., Kecskeméty K., Zeldovich M.A., Surova G.M. |
| 3.03 |
M.B. Krainev |
On the magnetic cycle in the GCR intensity in the inner and outer heliosphere |
Krainev M.B., Kalinin M.I. |
| 3.04 |
M.B. Krainev |
On the wavy global heliospheric current sheet in the 2D transport equation for the galactic cosmic rays |
Kalinin M.S., Krainev M.B. |
| 3.08 |
R.T. Gushchina |
The reflection in the long-term cosmic rays modulation of the cyclic variations of integral and partial indices of the solar magnetic field |
Gushchina R.T., Belov A.V., Obridko V.N., Shelting B.D. |
| 3.09 |
C. Grimani |
Solar physics on LISA |
Grimani C., Fabi M. |
| 3.10 |
A. Struminsky |
On estimates of first solar proton arrival to Earth |
Struminsky A.B., Zimovets I.V. |
| 3.11 |
Yu. Fedorov |
Stochastic acceleration of cosmic rays in helical plasma turbulence |
Fedorov Yu., Stehlik M. |
| 3.13 |
B.A. Shakhov |
The iteration method to obtain the analytical solutions of the boundary problems for cosmic ray propagation theory |
Shakhov B.A., Kolesnyk Yu.L. |
| 3.14 |
D. Grandi |
2D Stochastic Monte Carlo to evaluate the modulation of GCR for positive and negative periods |
Bobik P., Boella G., Boschini M.J., Torre S., Gervasi M., Grandi D., Kudela K., Pensotti S., Rancoita P.G. |
| 3.15 |
H. Mavromichalaki |
A preliminary statistical analysis of the GLEs in solar cycles 22 and 23 |
Andriopoulou M., Plainaki C., Mavromichalaki H., Belov A., Eroshenko E. |
| 3.16 |
I.S. Petukhov |
Dynamics of the galactic cosmic ray intensity in presence of solar wind disturbances |
Petukhov I.S., Petukhov S.I. |
| 3.17 |
E.V. Vashenyuk |
Relativistic solar cosmic rays dynamics in large ground level events |
Vashenyuk E.V., Balabin Yu.V., Gvozdevsky B.B. |
| 3.18 |
Yu. I. Balabin |
Relativistic SPE Events of 19 solar cycle: modeling study |
Balabin Yu. I., Vashenyuk E.V., Gvozdevsky B.B., Germanenko A.V. |
| 3.19 |
P. Király |
Recent Voyager data and unexpected properties of the heliospheric termination shock |
P. Király |
| 3.22 |
E. Eroshenko |
Cosmic ray variation properties during Forbush effects associated with far western solar sources |
Belov A., Eroshenko E., Mavromichalaki H., Oleneva V., Papaioannou A., Yanke V. |
| 3.23 |
A. Mishev |
Lead free Neutron monitor at Basic Environmental Observatory Moussala first measurements |
A. Mishev, A. Boukliyski, J. Stamenov |
| 3.25 |
M. Rybanský |
Forbush decreases of cosmic radiation and connected space weather events |
Dorotovič I., Kudela K., Lorenc M., Pintér T., Rybanský M. |
| 3.26 |
Y. Muraki |
Search for Solar Neutrons using the Bonar Ball Neutron Detector on the ISS |
Matsumoto H., Goka T., Koshiishi H., Koga K., Muraki Y. |
| 3.27 |
A. Gil |
On the quasi-periodic variations of the galactic cosmic rays intensity and anisotropy in the lingering minimum of solar activity |
A. Gil, M.V. Alania, R. Modzelewska |
| 3.28 |
Yu. Fedorov |
CR energetic spectra and its evolution in helical plasma turbulence |
Yu. Fedorov, M. Stehlik |
| 3.29 |
E.V. Vashenyuk |
Neutron multiplicity recordings during GLE 13 December, 2006 |
Balabin Yu.V., Gvozdevsky B.B., Vashenyuk E.V., Schur L.I. |
| 3.30 |
K.Iskra |
The estimation of the parallel diffusion coefficient based on the measurements of the interplanetary magnetic field turbulence |
Iskra K. |
| 3.31 |
K. Iskra |
On the relationship of the temporal changes of the rigidity spectrum of the galactic cosmic rays intensity variations and power spectrum density of the interplanetary magnetic field turbulence |
Alania M.V., Iskra K., Siluszyk M. |
| 3.32 |
A. Wawrzynczak |
Three dimensional modeling of the GCR intensity variation with the changeable solar wind velocity |
Alania M.V., Modzelewska R., Wawrzynczak A. |
| 3.33 |
A. Wawrzynczak |
On the role of the Interplanetary Magnetic Field turbulence in the change of the rigidity spectrum of Galactic Cosmic Rays during the Forbush decrease |
Wawrzynczak A., Alania M.V. |
| 3.34 |
R. Bucik |
Energetic Ions from Corotating Interaction Regions During Small Solar Events in May 2007 |
Bucik R., Gomez-Herrero R., Korth A., Mall U., Mason G. |
| 3.35 |
Y. Muraki |
Flux of Secondary Particles induced by Solar Neutrons and Protons |
Capdevielle J.N., Menjo H., Muraki Y. |
| 3.36 |
E.V. Vashenyuk |
Relativistic solar particle dynamics during the December 13, 2006 GLE |
Vashenyuk E.V., Balabin Y.V., Gvozdevsky B.B. |
| |
|
|
|
| 4.03 |
N.S. Barbashina |
The features of the study of Forbush effects in the flux of muons |
Barbashina N.S., Dmitrieva A.N., Kompaniets K.G., Mannocchi G., Petrukhin A.A., Saavedra O., Shutenko V.V., Timashkov D.A., Trinchero G., Yakovleva E.I., Yashin I.I. |
| 4.04 |
D.A. Timashkov |
Observation of heliospheric disturbances in muon component of cosmic rays at ground level |
Timashkov D.A., Barbashina N.S., Kompaniets K.G., Mannocchi G., Petrukhin A.A., Saavedra O., Shutenko V.V., Trinchero G., Yashin I.I. |
| 4.05 |
A.G. Bogdanov |
Coupling functions for primary CR and ground-level muons at various zenith angles |
Bogdanov A.G., Dmitrieva A.N., Kokoulin R.P., Petrukhin A.A., Timashkov D.A., Yakovleva E.I. |
| 4.07 |
V. Oleneva |
Behavior of the cosmic ray vector anisotropy near interplanetary shocks |
Belov A., Dryn E., Eroshenko E., Kryakunova O., Oleneva V., Yanke V., Papailiou M. |
| 4.08 |
H. Mavromichalaki |
Geomagnetic disturbances and cosmic ray activity in relation to human physiological parameters: A wide collaboration |
Mavromichalaki H., Papailiou M., Dimitrova S., Babayev E.S., Mustafa F.R. |
| 4.09 |
A. Mishev |
The induced Ionization by Solar Cosmic rays in the Earth atmosphere and ionosphere -CORSIKA code simulations |
Velinov P.I.Y., Mishev A. |
| 4.10 |
V.S. Prokudina |
The Study of the hectometric radio bursts and energetic electrons from solar flares |
Prokudina V.S., Slivka M., Kuril'chik V.N. |
| 4.11 |
A. Dragic |
Periodic variations of CR muon intensity in the period 2002-2004 |
Dragic A., Banjanac R., Udovicic V., Jokovic D., Puzovic J., Anicin I. |
| 4.15 |
K. Kudela |
On diurnal variation of cosmic rays: statistical study of neutron monitor data including Lomnický Štít |
Kudela K., Firoz K.A., Langer R., Kollár V. |
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| 5.00 |
P. Picozza |
Cosmic Rays under the Knee |
Picozza P.G., Malvezzi V., Marcelli L. |
| 5.01 |
V. Malvezzi |
Performance of the PAMELA space telescope in the identificationof the light nuclei cosmic rays component |
Malvezzi V. for the PAMELA Collaboration |
| 5.02 |
L. Marcelli |
PAMELA mission: preliminary results about nuclei analysis |
Marcelli L. on behalf of the PAMELA Collaboration |
| 5.05 |
C. Grimani |
Aspects of cosmic-ray positron astrophysics |
Grimani C. |
| 5.08 |
V.V. Shutenko |
Observation of geomagnetic effects in EAS muon component |
Shutenko V.V., Bogdanov A.G., Kokoulin R.P., Petrukhin A.A., Saavedra O., Yashin I.I. |
| 5.10 |
E. Mocchiutti |
The PAMELA Experiment: Preliminary Results after Two Years of Data Taking |
E. Mocchiutti on behalf of the PAMELA Collaboration |
| 5.11 |
A. Putze |
A Markov Chain Monte Carlo for Galactic Cosmic Ray Physics |
Putze A., Derome L., Maurin D., Perotto L., Taillet R. |
| 5.12 |
A.G. Bogdanov |
Multiple Interactions of Muons in Baksan Underground Scintillation Telescope |
A. G. Bogdanov, V. N. Bakatanov, R. P. Kokoulin, Yu. F. Novoseltsev, R. V. Novoseltseva, V. B. Petkov, and A. A. Petrukhin |
| 5.13 |
M. Buchvarova |
Primary Cosmic Ray Spectra in the Planet Atmospheres |
Buchvarova M., Velinov P. |
| 5.14 |
A. Putze |
Third flight of the CREAM experiment |
Antje Putze for the CREAM Collaboration |
| 5.19 |
P. Hofverberg |
Measurements of low energy antiparticles with the PAMELA experiment |
Hofverberg P. for the PAMELA Collaboration |
| |
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| 6.00 |
M. Unger |
Cosmic Rays above the Knee |
Unger M. |
| 6.01 |
V.V. Prosin |
Cosmic Ray Mass Composition by the Data of Tunka EAS Cherenkov Arrays |
Budnev N.M., Chvalaiev O.A., Gress O.A., Kalmykov N.N., Korosteleva E.E., Kozhin V.A., Kuzmichev V.A., Lubsandorzhiev B.K., Mirgazov R.R., Navarra G., Panasyuk M.I., Pankov L.V., Prosin V.V., Ptuskin V.S., Semeney Yu.A., Shaibonov B.A. (junior), Skurikhin A.V., Spiering C., Wischnewski R., Yashin I.V., Zablotsky A.V., Zagorodnikov A.V. |
| 6.03 |
J.N. Capdevielle |
Towards the trans-GZK era from giant EAS arrays to satellite experiments |
Capdevielle J.N. |
| 6.04 |
P. Luczak |
Muon tracking in KASCADE-Grande: Lateral distributions of EAS muon densities |
Luczak P. for the KASCADE-Grande Collaboration |
| 6.05 |
A.A. Mikhailov |
Arrival Directions of UHECR on the Celestial Sphere |
Mikhailov A.A., Efremov N.N., Gerasimova N.S., Kolosov V.A., Makarov I.T. |
| 6.07 |
C. P. Knurenko |
A search for extragalactic sources of ultra-high energy cosmic rays |
Ivanov A.A., Knurenko C.P., Sleptsov I.Ye., Sabourov A.V. |
| 6.09 |
I.I. Yashin |
Investigation of primary cosmic ray spectrum shape by means of EAS muon density technique |
I.I. Yashin, A.G. Bogdanov, D.V. Chernov, D.M. Gromushkin, R.P. Kokoulin, G. Mannocchi, A.A. Petrukhin, O. Saavedra, V.V. Shutenko, G. Trinchero |
| 6.11 |
T. Wibig |
Heavy Cosmic Ray Nuclei from Extragalactic Sources above 'The Ankle' |
Wibig T., Wolfendale A.W. |
| 6.13 |
S.P. Knurenko |
Cosmic ray spectrum and mass composition in the ultra-high energy domain |
Knurenko S.P., Ivanov A.A., Sabourov A.V., Berezhko E.G. |
| 6.14 |
S.P. Knurenko |
Spati-temporal distribution of cascade particles below the maximum of EAS development with E_0>=10^17 eV |
Knurenko S., Petrov Z., Yegorov Y., Dyachkovsky N. |
| 6.15 |
A. Tamburro |
Neutrino detection with the surface array of the Pierre Auger Observatory |
Tamburro A. for the Pierre Auger Collaboration |
| 6.16 |
P. Homola |
Photon Physics with Auger |
Homola P. for the Pierre Auger Collaboration |
| 6.17 |
E. M. Santos |
Anisotropy Studies with the Pierre Auger Observatory |
Santos E.M. for the Pierre Auger Collaboration |
| 6.18 |
S. Klepser |
First Results from the IceTop Air Shower Array |
Klepser S. for the IceCube Collaboration |
| 6.20 |
N. Sakaki |
The JEM-EUSO mission – Instrument |
Sakaki N. for the JEM-EUSO collaboration |
| 6.21 |
D. Kuempel |
Simulation study of UHECR particle propagation and photon fluxes |
Kuempel D., Kampert K.-H., Risse M. |
| 6.22 |
D. Kuempel |
Geometry reconstruction of fluorescence detectors revisited |
Kuempel D., Kampert K.-H., Risse M. |
| 6.23 |
A. Creusot |
Angular Resolution of the Surface Detector of the Pierre Auger Observatory |
Creusot A. for the Pierre Auger Collaboration |
| 6.25 |
S. Vorobiov |
UHECR propagation in the Galactic Magnetic Field |
Vorobiov S., Hussain M., Veberic D. |
| 6.27 |
A. Chiavassa |
The KASCADE-Grande experiment: an overview |
Chiavassa A. for the KASCADE-Grande Collaboration |
| 6.29 |
K. Singh |
Detection of Ultra High Energy Cosmic Rays with LOFAR |
Singh K., Bähren L., Buitink S., Falcke H., Horneffer A., Scholten O. |
| 6.30 |
S.I. Rogovaya |
Spectrum of ultra-high energy cosmic rays from cluster accretion shocks |
Ptuskin V.S., Rogovaya S.I., Zirakashvili V.N. |
| 6.31 |
M. Giller |
Influence of Cherenkov light on the width of optical images of extensive air showers |
Giller M., Wieczorek G. |
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| 7.00 |
T. Wibig |
Ultra High-Energy Interaction of CR protons |
Wibig T. |
| 7.01 |
R. Conceicao |
Net-Baryon Physics: Basic Mechanisms |
. Alvarez-Muniz, R. Conceicao, J. Dias de Deus, M.C. Espırito Santo, J. G. Milhano, M. Pimenta |
| 7.06 |
A.U. Kudzhaev |
A study of hadrons and muons in EAS at "Carpet-2" shower array |
Dzhappuev D.D., Kudzhaev A.U., Klimenko N.F., Mikhailova O.I., Stepanov V.I., Tsyabuk A.L. |
| 7.08 |
A. Surdo |
Measurement of the inelastic proton-air cross section with ARGO-YBJ |
Surdo A. for the ARGO-YBJ Collaboration |
| 7.12 |
Y. Muraki |
Current status of the LHCf experiment |
Muraki Y. for the LHCf collaboration |
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| 8.00 |
S. Gabici |
Gamma Ray Astronomy and the Origin of Galactic Cosmic Rays |
Gabici S. |
| 8.01 |
V. Sinitsyna |
A search for astrophysical point sources of neutrino with high mountain SHALON mirror Cherenkov telescope |
Sinitsyna V.G., Malyshko A.A., Musin F.I., Nikolsky S.I., Sinitsyna V.Y. |
| 8.02 |
V. Sinitsyna |
The close metagalactic sources SN2006gy, NGC 1275, Mkn 421, Mkn 501 (z from 0.0179 to 0.034): spectral energy distributions and images |
Sinitsyna V.G., Musin F.I., Nikolsky S.I., Sinitsyna V.Y. |
| 8.03 |
V. Sinitsyna |
10 years of Flaring activity of Cygnus X-3 and new galactic Binary 2129+47XR |
Sinitsyna V.G., Alaverdyan A.Y., Musin F.I., Nikolsky S.I., Sinitsyna V.Y. |
| 8.04 |
V. Sinitsyna |
VHE spectral energy distributions of Crab Nebula compared with the prediction of Synchrotron Self-Compton emission model |
Sinitsyna V.G., Musin F.I., Nikolsky S.I., Sinitsyna V.Y. |
| 8.05 |
V. Sinitsyna |
Geminga and Tycho SNR viewed in TeV gamma rays |
Sinitsyna V.G., Musin F.I., Nikolsky S.I., Sinitsyna V.Y., Platonov G.F. |
| 8.06 |
V. Sinitsyna |
Integral spectra, spectral energy distributions and images the distant VHE metagalactic sources 1739+522 (z=1.375) and 3c454.3 (z=0.859) |
Sinitsyna V.G., Malyshko A.A., Musin F.I., Nikolsky S.I., Sinitsyna V.Y. |
| 8.07 |
K. Kawata |
Observations of TeV gamma rays with the Tibet air shower array and future prospects |
Kawata K. for the Tibet AS gamma Collaboration |
| 8.08 |
T. Di Girolamo |
Search for emission from Gamma Ray Bursts with the ARGO-YBJ detector |
Di Girolamo T. for the ARGO-YBJ Collaboration |
| 8.11 |
D. Haas |
POLAR: Design of a novel X-ray polarimeter based on plastic scintillators and multi-anode photomultipliers |
Haas D. for the POLAR collaboration |
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| 9.02 |
K. Jedrzejczak |
Thermal neutron background measurements in Gran Sasso Laboratory |
Debicki Z., Jedrzejczak K., Karczmarczyk J., Kasztelan M., Lewandowski R., Orzechowski J., Szabelski J., Szeptycka M., Tokarski P. |
| 9.05 |
J. Urbar |
MEDIPIX cosmic ray tracking device for ESA BEXUS stratospheric balloon flight |
Urbar J., Scheirich J., Jakubek J. |
| 9.06 |
M. Storini |
Cosmic Rays during IHY/CIP 57 Campaigns |
Storini M., Signoretti F., Re F., Parisi M. |
| 9.07 |
F. Jansen |
Cosmic Rays and Space Situational Awareness in Europe |
Jansen, F., Behrens, J. |
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| 10.0 |
A.W.Wolfendale |
Cosmic Rays: Perspectives for the Future |
A.W.Wolfendale |
