Development of Air Showers in the Atmosphere

Sitte, Kurt; Stierwalt, Don L.; Kofsky, Irving L.

doi:10.1103/physrev.94.988

Development of Air Showers in the Atmosphere

Journal Article · Sat May 15 00:00:00 EDT 1954 · Physical Review

DOI:https://doi.org/10.1103/physrev.94.988· OSTI ID:4382625

Sitte, Kurt ^[1]; Stierwalt, Don L. ^[2]; Kofsky, Irving L. ^[2]

Syracuse Univ., NY (United States)
Smith College, Northampton, MA (United States)

An experiment was carried out at Mt. Evans, Colorado (altitude 4300 m) to study the development of extensive air showers in the atmosphere. Showers with cores striking near a cloud-chamber-hodoscope arrangement were selected, and the differential energy spectrum of the shower particles determined by observing their transition effect in six ½-in. lead plates with a 68-counter hodoscope. Each shower can be assigned an age classification on the basis of this energy spectrum. The lateral structure function between 2 m and 8 m from the core was obtained from measurements of the particle densities at four extension trays containing 50 counters with a total area of 1.34 m². It was found from the hodoscope data that the lateral structure function of the showers of various ages does not agree well with the predictions of the single-particle cascade theory. The observed structure function for showers at and beyond the cascade maximum is less steep than expected near the axis; this is consistent with multiple production of shower-producing particles in the primary collision. It was also found that the lateral distribution of showers past the cascade maximum varies only slowly with age; this tendency is predicted in a general way by the cascade theory, but only at a much later stage of development than observed and with quite a different slope of the distribution curve. The interpretation of this effect as the result of a "rejuvenation" of the shower by the continuous transfer of energy from the nucleonic cascade to the electron cascade is therefore more likely.

View Accepted Manuscript (DOE)

Research Organization:: Smith College, Northampton, MA (United States); Syracuse Univ., NY (United States)

Sponsoring Organization:: US Atomic Energy Commission (AEC)

NSA Number:: NSA-07-005089

OSTI ID:: 4382625

Report Number(s):: NYO--3404

Journal Information:: Physical Review, Journal Name: Physical Review Journal Issue: 4 Vol. 94; ISSN 0031-899X

Publisher:: American Physical Society (APS)Copyright Statement

Country of Publication:: United States

Language:: English

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ABSORPTION
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Development of Air Showers in the Atmosphere

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