John E. Allen scite author profile

During a systematic scan for interactions of 1. 3-and 1. 5-GeV/c K" mesons 1 in emulsions irradiated in the separated K' meson beam at CERN, 2 an event has been found which is interpreted as the production and subsequent mesonic cascade decay of a double hyper fragment. A photomicrograph and explanatory schematic drawing of the event are given in Fig. 1, AS" hyperon (track 1) emitted from the interaction of a K~ meson of momentum 1. 5 GeV/c (star A) comes to rest and is absorbed at B. A double hyperfragment (track 6) and another charged particle (track 5) are observed to come from star B. The double hyperfragment decays at C into a n~ meson (track 7), a singly charged particle (track 8), and an ordinary hyperfragment (track 9). This hyperfragment decays at D into a n~ meson (track 10) and three other charged particles (tracks 11, 12, and 13). The results of the measurements of the angles of emission and ranges of all the charged particles involved in these processes are summarized in Table I. All reasonable interpretations of this event, other than that of a H~ hyperon capture at B leading to the emission of a double hyperfragment, have been considered and discarded. 3 The ordinary hyperfragment was analyzed using only the kinematics of its decay, whereas the possible identities and decay schemes of the double hyperfragment were assigned from a study of both the production and decay processes. In particular, the Coulomb barrier argument was used to establish the fact that the H" hyperon capture occurred on a light nucleus (C,N, O) of the emulsion. The final results of this analysis are summarized in Table II.From a comparison of the binding energy B^A of the two A 0 hyperons in double hyperfragments with Bj^ for ordinary hyperfragments, one can expect to obtain information not only on the 29

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Introduction

Raǐzer¹,

Allen²

1991

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Electron Impact Cross Sections for Argon

Peterson

Allen

1972

177

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A reasonably complete set of phenomenological discrete and ionization cross sections for argon is given using combinations of data and theoretically meaningful extrapolations of the generalized oscillator strengths. After including estimates of inner-shell cross sections, the degradation of electrons in Ar is considered. Calculations of the final populations for each excited state are given as a function of incident energy and when applied to ionization, results in electron volts per ion pair values near 29 eV. Inner shells in our work appear to contribute by adding on the order of 5% to the loss function at energies above a kilovolt.

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Mental Retardation in Association with Progressive Muscular Dystrophy

Allen¹

1960

Arch Pediatr Adolesc Med

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John E. Allen

The identification of a double hyperfragment

Observation of a Double Hyperfragment

Introduction

Electron Impact Cross Sections for Argon

Mental Retardation in Association with Progressive Muscular Dystrophy

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