Publikationer av Mark Pearce
Refereegranskade
Artiklar
[1]
M. Aoyagi et al., "Systematic effects on a Compton polarimeter at the focus of an X-ray mirror," Astroparticle physics, vol. 158, 2024.
[2]
N. Iyer et al., "The design and performance of the XL-Calibur anticoincidence shield," Nuclear Instruments and Methods in Physics Research Section A : Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 1048, 2023.
[3]
O. Adriani et al., "Design of an Antimatter Large Acceptance Detector In Orbit (ALADInO)," Instruments, vol. 6, no. 2, 2022.
[4]
Q. Abarr et al., "Performance of the X-Calibur hard X-ray polarimetry mission during its 2018/19 long-duration balloon flight," Astroparticle physics, vol. 143, s. 102749, 2022.
[5]
P. Soffitta et al., "A polarized view of the hot and violent universe," Experimental astronomy, vol. 51, no. 3, s. 1109-1141, 2021.
[6]
A. Bruno et al., "East-West Proton Flux Anisotropy Observed with the PAMELA Mission," Astrophysical Journal, vol. 919, no. 2, 2021.
[7]
A. De Angelis et al., "Gamma-ray astrophysics in the MeV range : The ASTROGAM concept and beyond," Experimental astronomy, vol. 51, no. 3, s. 1225-1254, 2021.
[8]
R. Battiston et al., "High precision particle astrophysics as a new window on the universe with an Antimatter Large Acceptance Detector In Orbit (ALADInO)," Experimental astronomy, vol. 51, no. 3, s. 1299-1330, 2021.
[9]
R. Battiston et al., "High precision particle astrophysics as a new window on the universe with an Antimatter Large Acceptance Detector In Orbit (ALADInO) (May, 10.1007/s10686-021-09708-w, 2021)," Experimental astronomy, vol. 51, no. 3, s. 1331-1332, 2021.
[10]
A. Bruno et al., "Solar-cycle Variations of South Atlantic Anomaly Proton Intensities Measured with the PAMELA Mission," Astrophysical Journal Letters, vol. 917, no. 2, 2021.
[11]
R. Kushwah, T. A. Stana och M. Pearce, "The design and performance of CUBES - a CubeSat X-ray detector," Journal of Instrumentation, vol. 16, no. 8, 2021.
[12]
Q. Abarr et al., "Observations of a GX 301-2 Apastron Flare with the X-Calibur Hard X-Ray Polarimeter Supported by NICER, the Swift XRT and BAT, and Fermi GBM," Astrophysical Journal, vol. 891, no. 1, 2020.
[13]
N. Marcelli et al., "Time Dependence of the Flux of Helium Nuclei in Cosmic Rays Measured by the PAMELA Experiment between 2006 July and 2009 December," Astrophysical Journal, vol. 893, no. 2, 2020.
[14]
R. Kushwah et al., "A Compton polarimeter using scintillators read out with MPPCs through Citiroc ASIC," Nuclear Instruments and Methods in Physics Research Section A : Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 943, 2019.
[15]
W. Mi et al., "A stacked prism lens concept for next-generation hard X-ray telescopes," Nature Astronomy, 2019.
[16]
V. V. Mikhailov et al., "Galactic Cosmic Ray Electrons and Positrons over a Decade of Observations in the PAMELA Experiment," Bulletin of the Russian Academy of Sciences: Physics, vol. 83, no. 8, s. 974-976, 2019.
[17]
L. Heckmann et al., "Gamma-ray burst localization strategies for the SPHiNX hard x-ray polarimeter," JOURNAL OF ASTRONOMICAL TELESCOPES INSTRUMENTS AND SYSTEMS, vol. 5, no. 1, 2019.
[18]
M. Chauvin et al., "PoGO + polarimetric constraint on the synchrotron jet emission of Cygnus X-1," Monthly Notices of the Royal Astronomical Society: Letters, vol. 483, no. 1, s. L138-L143, 2019.
[19]
M. Pearce et al., "Science prospects for SPHiNX - A small satellite GRB polarimetry mission," Astroparticle physics, vol. 104, s. 54-63, 2019.
[20]
F. Xie, M. Pearce och C. SPHiNX, "A Study of Background Conditions for Sphinx-The Satellite-Borne Gamma-Ray Burst Polarimeter," Galaxies, vol. 6, no. 2, 2018.
[21]
M. Chauvin et al., "Accretion geometry of the black-hole binary Cygnus X-1 from X-ray polarimetry," Nature Astronomy, vol. 2, no. 8, s. 652-655, 2018.
[22]
M. Chauvin et al., "Correction : Shedding new light on the crab with polarized X-rays (Scientific Reports DOI: 10.1038/s41598-017-07390-7)," Scientific Reports, vol. 8, no. 1, 2018.
[23]
R. Munini et al., "Evidence of Energy and Charge Sign Dependence of the Recovery Time for the 2006 December Forbush Event Measured by the PAMELA Experiment," Astrophysical Journal, vol. 853, no. 1, 2018.
[24]
W. Menn et al., "Lithium and Beryllium Isotopes with the PAMELA Experiment," Astrophysical Journal, vol. 862, no. 2, 2018.
[25]
M. Martucci et al., "Proton Fluxes Measured by the PAMELA Experiment from the Minimum to the Maximum Solar Activity for Solar Cycle 24," Astrophysical Journal Letters, vol. 854, no. 1, 2018.
[26]
A. De Angelis et al., "Science with e-ASTROGAM A space mission for MeV-GeV gamma-ray astrophysics," Journal of High Energy Astrophysics, vol. 19, s. 1-106, 2018.
[27]
A. Bruno et al., "Solar Energetic Particle Events Observed by the PAMELA Mission," Astrophysical Journal, vol. 862, no. 2, 2018.
[28]
M. Chauvin et al., "The PoGO plus view on Crab off-pulse hard X-ray polarization," Monthly notices of the Royal Astronomical Society, vol. 477, no. 1, s. L45-L49, 2018.
[29]
M. Friis et al., "The PoGO+ balloon-borne hard X-ray polarimetry mission," Galaxies, vol. 6, no. 1, 2018.
[30]
V. V. Mikhailov et al., "Trapped Positrons and Electrons in the Inner Radiation Belt According to Data of the PAMELA Experiment," Physics of Atomic Nuclei, vol. 81, no. 4, s. 515-519, 2018.
[31]
O. Adriani et al., "Unexpected Cyclic Behavior in Cosmic-Ray Protons Observed by PAMELA at 1 au," Astrophysical Journal Letters, vol. 852, no. 2, 2018.
[32]
M. Chauvin et al., "Calibration and performance studies of the balloon-borne hard X-ray polarimeter PoGO," Nuclear Instruments and Methods in Physics Research Section A : Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 859, s. 125-133, 2017.
[33]
A. Bruno et al., "Geomagnetically trapped, albedo and solar energetic particles : Trajectory analysis and flux reconstruction with PAMELA," Advances in Space Research, vol. 60, no. 4, s. 788-795, 2017.
[34]
V. V. Mikhailov et al., "Modulation of electrons and positrons in 2006–2015 in the PAMELA experiment," Bulletin of the Russian Academy of Sciences: Physics, vol. 81, no. 2, s. 154-156, 2017.
[35]
V. V. Mikhailov et al., "Secondary positrons and electrons in near-Earth space in the PAMELA experiment," Bulletin of the Russian Academy of Sciences: Physics, vol. 81, no. 2, s. 203-205, 2017.
[36]
V. V. Mikhailov et al., "Sharp increasing of positron to electron fluxes ratio below 2 GV measured by the PAMELA," Journal of Physics, Conference Series, vol. 798, no. 1, 2017.
[37]
M. Chauvin et al., "Shedding new light on the Crab with polarized X-rays," Scientific Reports, vol. 7, no. 7816, s. 1-6, 2017.
[38]
S. A. Koldobskiy et al., "Solar modulation of cosmic deuteron fluxes in the PAMELA experiment," Bulletin of the Russian Academy of Sciences: Physics, vol. 81, no. 2, s. 151-153, 2017.
[39]
E. A. Bogomolov et al., "Spectra of solar neutrons with energies of ~10–1000 MeV in the PAMELA experiment in the flare events of 2006–2015," Bulletin of the Russian Academy of Sciences: Physics, vol. 81, no. 2, s. 132-135, 2017.
[40]
O. Adriani et al., "Ten years of PAMELA in space," La Rivista del nuovo cimento della Società italiana di fisica, vol. 40, no. 10, s. 473-522, 2017.
[41]
A. M. Galper et al., "The PAMELA experiment : A decade of Cosmic Ray Physics in space," Journal of Physics, Conference Series, vol. 798, no. 1, 2017.
[42]
O. Adriani et al., "MEASUREMENTS OF COSMIC-RAY HYDROGEN AND HELIUM ISOTOPES WITH THE PAMELA EXPERIMENT," Astrophysical Journal, vol. 818, no. 1, 2016.
[43]
M. Chauvin et al., "Observation of polarized hard X-ray emission from the Crab by the PoGOLite Pathfinder," Monthly notices of the Royal Astronomical Society, vol. 456, no. 1, s. L84-L88, 2016.
[44]
M. Chauvin et al., "Optimising a balloon-borne polarimeter in the hard X-ray domain : From the PoGOLite Pathfinder to PoGO," Astroparticle physics, vol. 82, s. 99-107, 2016.
[45]
O. Adriani et al., "PAMELA's measurements of geomagnetic cutoff variations during the 14 December 2006 storm," Space Weather : The International Journal of Research and Application, vol. 14, no. 3, s. 210-220, 2016.
[46]
M. Chauvin et al., "Preflight performance studies of the PoGOLite hard X-ray polarimeter," Astroparticle physics, vol. 72, s. 1-10, 2016.
[47]
O. Adriani et al., "SEARCH FOR ANISOTROPIES IN COSMIC-RAY POSITRONS DETECTED BY THE PAMELA EXPERIMENT (vol 811, 21, 2015)," Astrophysical Journal, vol. 818, no. 1, 2016.
[48]
M. Chauvin et al., "The design and flight performance of the PoGOLite Pathfinder balloon-borne hard X-ray polarimeter," Experimental astronomy, vol. 41, no. 1, s. 17-41, 2016.
[49]
A. V. Karelin et al., "The high energy cosmic ray particle spectra measurements with the PAMELA calorimeter," Nuclear and Particle Physics Proceedings, vol. 273-275, s. 275-281, 2016.
[50]
O. Adriani et al., "Time Dependence of the Electron and Positron Components of the Cosmic Radiation Measured by the PAMELA Experiment between July 2006 and December 2015," Physical Review Letters, vol. 116, no. 24, 2016.
[51]
M. Kole, M. Pearce och M. M. Salinas, "A model of the cosmic ray induced atmospheric neutron environment," Astroparticle physics, vol. 62, s. 230-240, 2015.
[52]
A. V. Karelin et al., "Detection of a change in the North-South ratio of count rates of particles of high-energy cosmic rays during a change in the polarity of the magnetic field of the Sun," JETP Letters : Journal of Experimental And Theoretical Physics Letters, vol. 101, no. 4, s. 228-231, 2015.
[53]
I. G. Usoskin et al., "Force-field parameterization of the galactic cosmic ray spectrum : Validation for Forbush decreases," Advances in Space Research, vol. 55, no. 12, s. 2940-2945, 2015.
[54]
A. V. Karelin et al., "Measurement of the large-scale anisotropy of cosmic rays in the PAMELA experiment," JETP Letters : Journal of Experimental And Theoretical Physics Letters, vol. 101, no. 5, s. 295-298, 2015.
[55]
S. Koldobskiy et al., "Measuring the albedo deuteron flux in the PAMELA satellite experiment," Bulletin of the Russian Academy of Sciences: Physics, vol. 79, no. 3, s. 294-297, 2015.
[56]
A. V. Karelin et al., "Measuring the spectra of high-energy cosmic-ray particles in the PAMELA experiment," Bulletin of the Russian Academy of Sciences: Physics, vol. 79, no. 3, s. 289-293, 2015.
[57]
O. Adriani et al., "New Upper Limit on Strange Quark Matter Abundance in Cosmic Rays with the PAMELA Space Experiment," Physical Review Letters, vol. 115, no. 11, 2015.
[58]
O. Adriani et al., "Pamela's measurements of magnetospheric effects on high-energy solar particles," Astrophysical Journal Letters, vol. 801, no. 1, 2015.
[59]
M. Kole et al., "PoGOLino : A scintillator-based balloon-borne neutron detector," Nuclear Instruments and Methods in Physics Research Section A : Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 770, s. 68-75, 2015.
[60]
O. Adriani et al., "Reentrant albedo proton fluxes measured by the PAMELA experiment," Journal of Geophysical Research - Space Physics, vol. 120, no. 5, s. 3728-3738, 2015.
[61]
O. Adriani et al., "SEARCH FOR ANISOTROPIES IN COSMIC-RAY POSITRONS DETECTED BY THE PAMELA EXPERIMENT," Astrophysical Journal, vol. 811, no. 1, 2015.
[62]
V. V. Mikhailov et al., "Searching for anisotropy of positrons and electrons in the PAMELA experiment," Bulletin of the Russian Academy of Sciences: Physics, vol. 79, no. 3, s. 298-301, 2015.
[63]
A. A. Leonov et al., "Separation of electrons and protons in the GAMMA-400 gamma-ray telescope," Advances in Space Research, vol. 56, no. 7, s. 1538-1545, 2015.
[64]
O. Adriani et al., "TIME DEPENDENCE of the e- FLUX MEASURED by PAMELA during the 2006 July-2009 DECEMBER SOLAR MINIMUM," Astrophysical Journal, vol. 810, no. 2, 2015.
[65]
O. Adriani et al., "TRAPPED proton fluxes at low earth orbits measured by the PAMELA experiment," Astrophysical Journal Letters, vol. 799, no. 1, s. L4, 2015.
[66]
N. P. Topchiev et al., "The GAMMA-400 experiment : Status and prospects," Bulletin of the Russian Academy of Sciences: Physics, vol. 79, no. 3, s. 417-420, 2015.
[67]
M. Martucci et al., "Analysis on H spectral shape during the early 2012 SEPs with the PAMELA experiment," Nuclear Instruments and Methods in Physics Research Section A : Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 742, s. 158-161, 2014.
[68]
O. Adriani et al., "Measurement of Boron and Carbon Fluxes in Cosmic Rays with the Pamela Experiment," Astrophysical Journal, vol. 791, no. 2, s. 93, 2014.
[69]
V. Formato et al., "Measurement of hydrogen and helium isotopes flux in galactic cosmic rays with the PAMELA experiment," Nuclear Instruments and Methods in Physics Research Section A : Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 742, s. 273-275, 2014.
[70]
A. V. Karelin et al., "New measurements of the energy spectra of high-energy cosmic-ray protons and helium nuclei with the calorimeter in the PAMELA experiment," Journal of Experimental and Theoretical Physics, vol. 119, no. 3, s. 448-452, 2014.
[71]
O. Adriani et al., "The PAMELA Mission : Heralding a new era in precision cosmic ray physics," Physics reports, vol. 544, no. 4, s. 323-370, 2014.
[72]
M. Boezio et al., "The PAMELA experiment and antimatter in the universe," Hyperfine Interactions, vol. 228, no. 1-3, s. 101-109, 2014.
[73]
A. G. Mayorov et al., "Antiprotons of galactic cosmic radiation in the PAMELA experiment," Bulletin of the Russian Academy of Sciences: Physics, vol. 77, no. 5, s. 602-605, 2013.
[74]
V. Mikhailov et al., "Cosmic ray electron and positron spectra measured with PAMELA," Journal of Physics, Conference Series, vol. 409, no. 1, s. 012035, 2013.
[75]
P. Picozza et al., "Cosmic ray study with the PAMELA experiment," Journal of Physics, Conference Series, vol. 409, no. 1, 2013.
[76]
O. Adriani et al., "Cosmic-Ray Positron Energy Spectrum Measured by PAMELA," Physical Review Letters, vol. 111, no. 8, s. 081102, 2013.
[77]
S. A. Koldobskiy et al., "Measurement of galactic cosmic-ray deuteron spectrum in the PAMELA experiment," Bulletin of the Russian Academy of Sciences: Physics, vol. 77, no. 5, s. 606-608, 2013.
[78]
O. Adriani et al., "Measurement of the flux of primary cosmic ray antiprotons with energies of 60 MeV to 350 GeV in the PAMELA experiment," JETP Letters : Journal of Experimental And Theoretical Physics Letters, vol. 96, no. 10, s. 621-627, 2013.
[79]
O. Adriani et al., "Measurement of the isotopic composition of hydrogen and helium nuclei in cosmic rays with the PAMELA experiment," Astrophysical Journal, vol. 770, no. 1, s. 2, 2013.
[80]
O. Adriani et al., "Measurements of cosmic-ray proton and helium spectra with the PAMELA calorimeter," Advances in Space Research, vol. 51, no. 2, s. 219-226, 2013.
[81]
A. V. Karelin et al., "North-south asymmetry for high-energy cosmic-ray electrons measured with the PAMELA experiment," Journal of Experimental and Theoretical Physics, vol. 117, no. 2, s. 268-273, 2013.
[82]
A. Bruno et al., "Precise cosmic rays measurements with PAMELA," Acta Polytechnica, vol. 53, no. Suppl.1, s. 712-717, 2013.
[83]
G. A. Bazilevskaya et al., "Solar energetic particle events in 2006-2012 in the PAMELA experiment data," Journal of Physics, Conference Series, vol. 409, no. 1, 2013.
[84]
G. A. Bazilevskaya et al., "Solar proton events at the end of the 23rd and start of the 24th solar cycle recorded in the PAMELA experiment," Bulletin of the Russian Academy of Sciences: Physics, vol. 77, no. 5, s. 493-496, 2013.
[85]
W. Menn et al., "The PAMELA space experiment," Advances in Space Research, vol. 51, no. 2, s. 209-218, 2013.
[86]
O. Adriani et al., "Time Dependence Of The Proton Flux Measured By Pamela During The 2006 July-2009 December Solar Minimum," Astrophysical Journal, vol. 765, no. 2, s. 91, 2013.
[87]
P. Soffitta et al., "XIPE : the X-ray imaging polarimetry explorer," Experimental astronomy, vol. 36, no. 3, s. 523-567, 2013.
[88]
J. Greiner et al., "GRIPS - Gamma-Ray Imaging, Polarimetry and Spectroscopy," Experimental astronomy, vol. 34, no. 2, s. 551-582, 2012.
[89]
M. Boezio et al., "The PAMELA space mission for antimatter and dark matter searches in space," Hyperfine Interactions, vol. 213, no. 1-3, s. 147-158, 2012.
[90]
O. Adriani et al., "Cosmic-Ray Electron Flux Measured by the PAMELA Experiment between 1 and 625 GeV," Physical Review Letters, vol. 106, no. 20, s. 201101, 2011.
[91]
N. De Simone et al., "Latitudinal and radial gradients of galactic cosmic ray protons in the inner heliosphere - PAMELA and Ulysses observations," Astrophysics and Space Sciences Transactions (ASTRA), vol. 7, no. 3, s. 425-434, 2011.
[92]
O. Adriani et al., "OBSERVATIONS OF THE 2006 DECEMBER 13 AND 14 SOLAR PARTICLE EVENTS IN THE 80 MeV n(-1)-3 GeV n(-1) RANGE FROM SPACE WITH THE PAMELA DETECTOR," Astrophysical Journal, vol. 742, no. 2, s. 102, 2011.
[93]
N. De Simone et al., "PAMELA : Measurements of matter and antimatter in space," Nuovo cimento della societa italiana de fisica. C, Geophysics and space physics, vol. 34, no. 3, s. 79-87, 2011.
[94]
O. Adriani et al., "PAMELA Measurements of Cosmic-Ray Proton and Helium Spectra," Science, vol. 332, no. 6025, s. 69-72, 2011.
[95]
O. Adriani et al., "The discovery of geomagnetically trapped cosmic-ray antiprotons," Astrophysical Journal Letters, vol. 737, no. 2, s. L29, 2011.
[96]
A. G. Mayorov et al., "Upper limit on the antihelium flux in primary cosmic rays," JETP Letters : Journal of Experimental And Theoretical Physics Letters, vol. 93, no. 11, s. 628-631, 2011.
[97]
O. Adriani et al., "A statistical procedure for the identification of positrons in the PAMELA experiment," Astroparticle physics, vol. 34, no. 1, s. 1-11, 2010.
[98]
O. Adriani et al., "PAMELA Results on the Cosmic-Ray Antiproton Flux from 60 MeV to 180 GeV in Kinetic Energy," Physical Review Letters, vol. 105, no. 12, s. 121101, 2010.
[99]
H. Takahashi et al., "The Polarized Gamma-Ray Observer, PoGOLite," Transactions of the Japanese Society for Artificial Intelligence, Aerospace Technology Japan, vol. 8, 2010.
[100]
Y. Kanai et al., "A Monte Carlo method for calculating the energy response of plastic scintillators to polarized photons below 100 keV," Nuclear Instruments and Methods in Physics Research Section A : Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 600, no. 3, s. 609-617, 2009.
[101]
O. Adriani et al., "An anomalous positron abundance in cosmic rays with energies 1.5-100 GeV," Nature, vol. 458, no. 7238, s. 607-609, 2009.
[102]
R. Sparvoli et al., "Cosmic rays studies with the PAMELA space experiment," Nuovo cimento della societa italiana de fisica. C, Geophysics and space physics, vol. 32, no. 5-6, s. 1-10, 2009.
[103]
A. A. Abdo et al., "FERMI LARGE AREA TELESCOPE OBSERVATIONS OF THE VELA PULSAR," Astrophysical Journal, vol. 696, no. 2, s. 1084-1093, 2009.
[104]
J. Greiner et al., "Gamma-ray burst investigation via polarimetry and spectroscopy (GRIPS)," Experimental astronomy, vol. 23, no. 1, s. 91-120, 2009.
[105]
O. Adriani et al., "Measurements of quasi-trapped electron and positron fluxes with PAMELA," Journal of Geophysical Research, vol. 114, s. A12218, 2009.
[106]
O. Adriani et al., "New Measurement of the Antiproton-to-Proton Flux Ratio up to 100 GeV in the Cosmic Radiation," Physical Review Letters, vol. 102, no. 5, 2009.
[107]
M. Boezio et al., "PAMELA and indirect dark matter searches," New Journal of Physics, vol. 11, s. 105023, 2009.
[108]
V. Bonvicini et al., "Performance of the PAMELA Si-W imaging calorimeter in space," Journal of Physics, Conference Series, vol. 160, s. 012039, 2009.
[109]
O. Adriani et al., "Positrons and electrons in primary cosmic rays as measured in the PAMELA experiment," Bulletin of the Russian Academy of Sciences: Physics, vol. 73, no. 5, s. 568-570, 2009.
[110]
O. Adriani et al., "Secondary electron and positron fluxes in the near-Earth space observed in the ARINA and PAMELA experiments," Bulletin of the Russian Academy of Sciences: Physics, vol. 73, no. 3, s. 364-366, 2009.
[111]
W. B. Atwood et al., "THE LARGE AREA TELESCOPE ON THE FERMI GAMMA-RAY SPACE TELESCOPE MISSION," Astrophysical Journal, vol. 697, no. 2, s. 1071-1102, 2009.
[112]
M. Casolino et al., "Two years of flight of the Pamela experiment : Results and perspectives," Journal of the Physical Society of Japan, vol. 78, no. Suppl. A, s. 35-40, 2009.
[113]
P. Papini et al., "In-flight performances of the PAMELA satellite experiment," Nuclear Instruments and Methods in Physics Research Section A : Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 588, no. 1-2, s. 259-266, 2008.
[114]
M. Casolino et al., "Launch of the space experiment PAMELA," Advances in Space Research, vol. 42, no. 3, s. 455-466, 2008.
[115]
M. Casolino et al., "Magnetospheric and solar physics observations with the PAMELA experiment," Nuclear Instruments and Methods in Physics Research Section A : Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 588, no. 1-2, s. 243-246, 2008.
[116]
T. Kamae et al., "PoGOLite - A high sensitivity balloon-borne soft gamma-ray polarimeter," Astroparticle physics, vol. 30, no. 2, s. 72-84, 2008.
[117]
M. Boezio et al., "The PAMELA space experiment : First year of operation," Journal of Physics, Conference Series, vol. 110, no. 6, 2008.
[118]
Y. Kanai et al., "Beam test of a prototype phoswich detector assembly for the PoGOLite astronomical soft gamma-ray polarimeter," Nuclear Instruments and Methods in Physics Research Section A : Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 570, no. 1, s. 61-71, 2007.
[119]
T. Ersmark et al., "Geant4 Monte Carlo Simulations of the belt proton radiation environment on board the international space Station/Columbus," IEEE Transactions on Nuclear Science, vol. 54, no. 4, s. 1444-1453, 2007.
[120]
T. Ersmark et al., "Geant4 Monte Carlo simulations of the galactic cosmic ray radiation environment on-board the international space station/columbus," IEEE Transactions on Nuclear Science, vol. 54, no. 5, s. 1854-1862, 2007.
[121]
T. Ersmark et al., "Influence of geometry model approximations on Geant4 simulation results of the Columbus/ISS radiation environment," Radiation Measurements, vol. 42, no. 8, s. 1342-1350, 2007.
[122]
M. Axelsson et al., "Measuring energy dependent polarization in soft gamma-rays using compton scattering in PoGOLite," Astroparticle physics, vol. 28, no. 3, s. 327-337, 2007.
[123]
P. Picozza et al., "PAMELA - A payload for antimatter matter exploration and light-nuclei astrophysics," Astroparticle physics, vol. 27, no. 4, s. 296-315, 2007.
[124]
M. Arimoto et al., "Performance assessment study of the balloon-borne astronomical soft gamma-ray polarimeter PoGOLite," Physica. E, Low-Dimensional systems and nanostructures, vol. 40, no. 2, s. 438-441, 2007.
[125]
M. B. Kiss och M. Pearce, "PoGOLite : Opening a new window on the universe with polarized gamma-rays," Nuclear Instruments and Methods in Physics Research Section A : Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 580, no. 2, s. 876-879, 2007.
[126]
O. Adriani et al., "The Pamela experiment ready for flight," Nuclear Instruments and Methods in Physics Research Section A : Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 572, no. 1, s. 471-473, 2007.
[127]
S. Orsi et al., "A second level trigger for the PAMELA satellite experiment," Astroparticle physics, vol. 25, no. 1, s. 33-40, 2006.
[128]
S. Orsi et al., "The anticoincidence shield of the PAMELA space experiment," Advances in Space Research, vol. 37, no. 10, s. 1853-1856, 2006.
[129]
M. Boezio et al., "The electron-hadron separation performance of the PAMELA electromagnetic calorimeter," Astroparticle physics, vol. 26, no. 2, s. 111-118, 2006.
[130]
Y. I. Stozhkov et al., "About Separation of Hadron and Electromagnetic Cascades in the Pamela Calorimeter," International Journal of Modern Physics A, vol. 20, no. 29, s. 6745-6748, 2005.
[131]
S. B. Gavler et al., "Radiation tests of CsI(Tl) crystals for the GLAST satellite mission," Nuclear Instruments and Methods in Physics Research Section A : Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 545, no. 3, s. 842-851, 2005.
[132]
P. Hofverberg et al., "The data acquisition system of the Stockholm Educational Air Shower Array," IEEE Transactions on Nuclear Science, vol. 52, no. 6, s. 2801-2809, 2005.
[133]
M. Pearce et al., "CLIMB : cosmic light isotopes and muons with balloons," Nuclear Instruments and Methods in Physics Research Section A : Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 525, no. 02-jan, s. 114-117, 2004.
[134]
B. Aubert et al., "Erratum to “Performance of the ATLAS electromagnetic calorimeter barrel module 0” [Nucl. Instr. and Meth. A 500 (2003) 202–231]," Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 517, no. 1-3, s. 399-402, 2004.
[135]
V. Bonvicini et al., "New concepts in silicon calorimetry for space experiments," Nuclear Instruments and Methods in Physics Research Section A : Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 518, no. 1-2, s. 186-187, 2004.
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Icke refereegranskade
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