E. Ambler scite author profile

The branching ratio of the two modes of decay of Fm'", i.e. , E.C. /n, was found to be about 8.5which gives 89.5% decay by electron capture and 10.5% by alpha emission. It was not possible to measure the cross section for the Cf'"(n, 3n)Fm'" reaction because Fm'" could also be produced from other californium isotopes in the target. A previous publication4 on a possible identification of the Fm'" gave the values of 6.85&0.04 Mev for the alpha-particle energy, and a half-life &10 days. It is a pleasure to thank the crew of the 60-inch cyclotron for their extremely careful and skillful operation of the machine during the bombardment. We wish to thank Professor Glenn T. Seaborg for his continued interest.

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Dependence of the Superconducting Transition Temperature on Carrier Concentration in Semiconducting SrTiO3

Schooley

et al. 1965

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Magnetic Cooling

Ambler

Hudson

1955

Rep. Prog. Phys.

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Magnetization and Critical Fields of Superconducting SrTiO3

et al. 1966

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Further Experiments onβDecay of Polarized Nuclei

et al. 1957

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in case screening is important. If there is no screening, then Q= (m 2 k/2EoE) for bremsstrahlung and Q= (m 2 k/ 2E + EJ) for pair production.Now consider the problem of integrating dcrs given by Eq. (1) over the angular variables u, v, s, and t. For purely dimensional reasons the result of the integration can be a function only of (Q/m) multiplied by Eo 2 , k 2 , or JE 2 according as M is given by Eqs.(3)-(5). But from the Bethe-Heitler formula, 3 the cross section summed over final spin-states iswhere R is a function of (Q/m) which is given the name of "radiation length." From this it necessarily follows that the angular integrals of Eq.(1) must have the values (f-jR" 1 , ^Rr 1 , f^" 1 ) for the three separate final spin combinations. We have also checked these values by a direct integration. We therefore conclude that the integrated cross sections for bremsstrahlung with assigned polarizations are given bywhere the suffixes refer respectively to the incident electron (energy Eo), the photon (energy k), and the outgoing electron (energy E).A precisely similar argument applied to the pairproduction process gives the integrated cross sectionswhere the suffixes refer to the polarization of photon, positron, and electron, respectively. These cross sections are of interest for two reasons. First, they show more clearly than the unpolarized cross sections the symmetry between bremsstrahlung and pair production, and they explain the origin of the unsymmetrical factors (2E 0 2 +2E 2 +k 2 ) and (k 2 +2E+ 2 -\-2EJ) which appear in the unpolarized cross sections. Second, they clearly indicate the possibility of a large-scale persistence of longitudinal polarization in an electromagnetic cascade originated by a single polarized electron of high energy. 4 The latter effect will be the subject of a separate communication.I N a previous communication 1 we reported that we observed a large asymmetry in the angular distribution of electrons from polarized Co 60 nuclei. It was concluded that unequivocal proof was thereby established of the nonconservation of parity as well as of noninvariance under charge conjugation in beta decay. It was also pointed out that according to Lee, Oehme, and Yang, 2 invariance under time reversal could also be investigated by studying the momentum dependence of the asymmetry parameter 0. Since then we have made further measurements and checks. In particular we have carried out similar experiments 3 with Co 58 and observed an asymmetry in the positron emission with a coefficient opposite in sign and roughly one third of that from Co 60 . Through more detailed measurements on Co 60 we have obtained the general behavior of the momentum dependence of /3. The linear dependence of P on v/c in the range from 0.4 to 0.75 is good.In order to put upper limits on possible spurious effects in our experimental method, we have performed a similar experiment with Bi 210 incorporated in the crystal. Since the bismuth ion in cerium magnesium nitrate is diamagnetic, there can be no significant nuclear polarization s...

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E. Ambler

Experimental Test of Parity Conservation in Beta Decay

Dependence of the Superconducting Transition Temperature on Carrier Concentration in Semiconducting SrTiO3

Magnetic Cooling

Magnetization and Critical Fields of Superconducting SrTiO3

Further Experiments onβDecay of Polarized Nuclei

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