Cosmic-Ray Nuclear Interactions in Gases

Brown, W.W.

doi:10.1103/physrev.93.528

Cited by 27 publications

(9 citation statements)

References 6 publications

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“…The lower value of 130 g/ cm 2 is used here because it describes the altitude dependence in the depth range relevant for most studies utilizing in situ produced cosmogenic nuclides. Moreover, this value for 1 agrees well with photographic emulsion [18] and cloud chamber data [19] that were obtained at altitudes between sea level and 3500 m (mean of 130 þ 4 g/cm 2 ). Thus the value of 130 g/cm 2 appears a good linear approximation for values of 1 for nuclear disintegrations induced by cosmic rays between sea level and 7000 m at high latitudes.…”

Section: The Data For the New Neutron £Ux Networksupporting

confidence: 88%

“…Hence the value of 132 þ 4 g/cm 2 obtained by Brown [19] (Table 1) is equally valid to describe the altitude dependence of in situ production of cosmogenic nuclides at the air^surface interface as the values of 1 obtained by [18]. Therefore, throughout this paper values of 130 þ 4 g/cm 2 (mean of [18] and [19]) and 149 þ 2 g/cm 2 [22,23] for high and low latitudes, respectively, will be used as guidelines for preferred values of 1 for cosmic ray-induced nuclear disintegrations at the Earth's surface. Note that the value for 1 obtained with the data collected with a BF 3 proportional counter at high latitudes and low altitudes (i.e.…”

Section: Attenuation Of Cosmic Rays In the Atmospherementioning

confidence: 68%

“…Analogous to the photographic emulsion data the cloud chamber data were also obtained close to the air^surface interface [19] and record events of similar energy ( s 8 MeV [19]) as photographic emulsions ( s 35 MeV [27]). Hence the value of 132 þ 4 g/cm 2 obtained by Brown [19] (Table 1) is equally valid to describe the altitude dependence of in situ production of cosmogenic nuclides at the air^surface interface as the values of 1 obtained by [18].…”

Section: Attenuation Of Cosmic Rays In the Atmospherementioning

confidence: 97%

“…The range in high latitude values for 1 is partially a result of the di¡erent detector designs. All data, except those of [18,19,22,23], were collected with BF 3 proportional counters embedded in para¤n using a lead core or cover; para¤n to shield the detectors from locally produced neutrons [13,24], lead as a target to produce secondary neutrons, from interactions with high-energy neutrons (200^1000 MeV [24]), that are recorded. A discussion of the in£uence of de-sign parameters on values for 1 is given in [13,25].…”

Section: Attenuation Of Cosmic Rays In the Atmospherementioning

confidence: 99%

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Scaling factors for production rates of in situ produced cosmogenic nuclides: a critical reevaluation

Dunai

2000

Earth and Planetary Science Letters

356

234

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New scaling factors are presented describing the altitude and latitudinal dependence of production rates for in situ produced cosmogenic nuclides. The new factors incorporate the influence of the non-dipole contributions to the geomagnetic field on the cosmic ray flux. The currently used scaling factors of Lal [Earth Planet. Sci. Lett. 104 (1991) 424^439] are based on the assumption of a dipole field. The overall strategy used in deriving the new scaling factors is, however, very similar to that of Lal and relies on the same and/or similar nuclear data. In this reevaluation, data are only used if the effective geomagnetic parameters (inclination, horizontal field strength) can be reconstructed for the time of measurement. The absorption free pathlengths 1 for cosmic rays selected for this study are based on observational data at altitudes relevant for exposure age dating (sea level to 7000 m). At sea level and latitudes between 20³ and 40³, the new factors are up to 18% lower and at high altitudes more than 30% higher than those of Lal. In addition to accounting for the influence of the effective geomagnetic field and providing more applicable estimates of 1, the new factors also allow for correction for the significant deviations from the standard pressure^altitude relationship that exist in the atmosphere (910%). ß

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Section: The Data For the New Neutron £Ux Networksupporting

confidence: 88%

Section: Attenuation Of Cosmic Rays In the Atmospherementioning

confidence: 68%

Section: Attenuation Of Cosmic Rays In the Atmospherementioning

confidence: 97%

Section: Attenuation Of Cosmic Rays In the Atmospherementioning

confidence: 99%

See 2 more Smart Citations

Scaling factors for production rates of in situ produced cosmogenic nuclides: a critical reevaluation

Dunai

2000

Earth and Planetary Science Letters

356

234

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“…The present production rate of Lie is calculated in the following way. The interaction of the cosmic radiation with nitrogen has been studied by BROWN (1954). He used a cloud chamber fded with nitrogen and observed the stars produced in the gas.…”

Section: Lithiummentioning

confidence: 99%

On the Influence of Cosmic Radiation on the Isotopic Composition of the Elements

Johansson

1959

TellusA

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When cosmic radiation interacts with the atomic nuclei of the atmosphere, it produces a great number of stable as well as radioactive isotopes. The radioactive isotopes are fairly easy to detect but the production of stable isotopes can only be detected by the changes in isotopic composition of the elements that might be caused by this effect. The amounts of Lid, Ne"', and A" that are produced in this way have been calculated. If the mean intensity of cosmic radiation in the past has been the same as at present it turns out that the production of these isotopes causes a change in isotopic composition which is barely detectable.A study of this effect gives a possibility of obtaining information about the cosmic-ray intensity in the past. If no cosmic-ray effect is found, it shows that the mean cosmic-ray intensity in the past could not have been considerably higher than at present. If the cosmic-ray intensity during the earlier stages in the earth's evolution were higher than at present, one could expect easily detectable changes in the isotopic composition of some elements. I 0 2

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Cosmic rays and meteorology

Rochester

1962

Quart J Royal Meteoro Soc

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Cosmic-Ray Nuclear Interactions in Gases

Cited by 27 publications

References 6 publications

Scaling factors for production rates of in situ produced cosmogenic nuclides: a critical reevaluation

Scaling factors for production rates of in situ produced cosmogenic nuclides: a critical reevaluation

On the Influence of Cosmic Radiation on the Isotopic Composition of the Elements

Cosmic rays and meteorology

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