B. Kimbell scite author profile

A ballon-borne magnet spectrometer system was flown for 5.5 hr at an altitude of more than 117,00 feet from Prince Albert, Saskatchewan (Canada), on 1989 September 5, when the Newark neutron monitor rate was 2952. The instrument was a modified version of the one used to observe antiprotons in 1979. The most significant modification was the addition of an imaging calorimeter, 7.33 radiation lengths thick. Inclusion of the calorimeter has significantly improved the ability to distinguish electrons and positrons from the other constituents of the cosmic rays. The absolute electron flux has been determined in the energy interval 1.3-26 GeV. The electron spectrum at the top of the atmosphere was found to be J(sub e-) = 177E(exp -(3.15+/-0.13)) electrons/ sq m/(sr s GeV) in the energy range 4.0-26 GeV. Below 4 GeV, the spectrum showed flattening, which is consistent with the effect of solar modulation. The e(+)/(e(+)+e(-)) ratio was found to be (0.11 +/- 0.03) in the energy range 5.2-13 GeV

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Observation of Cosmic-Ray Antiprotons at Energies below 500 MeV

Yoshimura

Orito

Ueda

et al. 1995

Phys. Rev. Lett.

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Absolute spectrum and charge ratio of cosmic ray muons in the energy region from 0.2 GeV to 100 GeV at 600 m above sea level

Pascale

Morselli²,

Picozza

et al. 1993

J. Geophys. Res.

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We have determined the momentum spectrum and charge ratio of muons in the region from 250 MeV/c to 100 GeV/c using a superconducting magnetic spectrometer. The absolute differential spectrum of muons obtained in this experiment at 600 m above sea level is in good agreement with the previous measurements at sea level. The differential spectrum can be represented by a power law with a varying index, which is consistent with zero below 450 MeV/c and steepens to a value of −2.7 ± 0.1 between 20 and 100 GeV/c. The integral flux of muons measured in this experiment span a very large range of momentum and is in excellent agreement with the earlier results. The positive to negative muon ratio appears to be constant in the entire momentum range covered in this experiment within the errors and the mean value is 1.220 ± 0.044. The absolute momentum spectrum and the charge ratio measured in this experiment are also consistent with the theoretical expectations. This is the only experiment which covers a wide range of nearly 3 decades in momentum from a very low momentum.

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Cosmic‐Ray Antiproton Flux in the Energy Range from 200 to 600 MeV

Моисеев¹,

Yoshimura²,

Ueda³

et al. 1997

ApJ

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We have studied the low-energy antiprotons in the cosmic rays by utilizing data obtained by the Balloon-borne Experiment with a Superconducting magnetic rigidity Spectrometer (BESS) Ñown in 1993 July from Lynn Lake, Manitoba, Canada. A detailed description of the event selection criteria and background corrections is given. Seven antiprotons are found that give an antiproton Ñux of 6.4~3 .5 5.5 ] 10~3(m2 sr s GeV)~1 and an antiproton/proton ratio of in the 200È600 MeV energy 5.2~2 .8 4.4 ] 10~6 range. These results are consistent with a secondary origin of low-energy cosmic-ray antiprotons within our uncertainties, but they still require the precise measurement of the spectrum shape below 500 MeV to clarify exactly the model of particle propagation and possible contributions from exotic sources.

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Balloon-borne experiment with a superconducting solenoidal magnet spectrometer

Anraku

Golden

Haga

et al. 1994

Advances in Space Research

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B. Kimbell

Observations of cosmic-ray electrons and positrons using an imaging calorimeter

Observation of Cosmic-Ray Antiprotons at Energies below 500 MeV

Absolute spectrum and charge ratio of cosmic ray muons in the energy region from 0.2 GeV to 100 GeV at 600 m above sea level

Cosmic‐Ray Antiproton Flux in the Energy Range from 200 to 600 MeV

Balloon-borne experiment with a superconducting solenoidal magnet spectrometer

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