Two-pion production in deuteron-deuteron collisions at low energies

Cross-sections for pion production in nucleon-nucleon collisions are calculated on the assumption that the production takes place into a few angular momentum states only, and that the matrix element for each particular transition is constant except for factors due to the final-state pion-nucleon and nucleon-nucleon interactions. The outgoing pion is assumed to be in a resonant (3/2, 3/2) state with one of the nucleons. The angular momentum states introduced are compared with those of Rosenfeld (1954) and Gell-Mann & Watson (1954). It is found that a three-parameter theory can give a good account of most of the experiments on pion production, both total and differential, up to 660 MeV, except near threshold when non-resonance production is important and further parameters are necessary. Energy distribution and angular correlation experiments bring out the importance of the pion-nucleon resonance. The cross-section for neutral pion production is predicted fairly accurately in terms of that for positive pion production from threshold to 660 MeV; at 660 MeV, the calculated positive:neutral ratio is 3⋅9. The difference between this value and that of Peaslee (1954) is partly due to the mass difference between the positive and neutral pion and partly to the inclusion of interference effects between the outgoing nucleons.

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Fresnel interference in point-projection imaging of purple membrane

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100140609 ◽

1995 ◽

Vol 53 ◽

pp. 846-847

Author(s):

X. Zhang ◽

J. Spence ◽

W. Qian ◽

D. Taylor ◽

K. Taylor

Keyword(s):

Detection Efficiency ◽

Mean Free Path ◽

Purple Membrane ◽

Unit Cell Dimension ◽

Experimental Point ◽

Membrane Thickness ◽

Low Energies ◽

Channel Plate ◽

Point Projection ◽

Inelastic Mean Free Path

Experimental point-projection shadow microscope (PPM) images of uncoated, unstained purple membrane (PM, bacteriorhodopsin, a membrane protein from Halobacterium holobium) were obtained recently using 100 volt electrons. The membrane thickness is about 5 nm and the hexagonal unit cell dimension 6 nm. The images show contrast around the edges of small holes, as shown in figure 1. The interior of the film is opaque. Since the inelastic mean free path for 100V electrons in carbon (about 6 Å) is much less than the sample thickness, the question arises that how much, if any, transmission of elastically scattered electrons occurs. A large inelastic contribution is also expected, attenuated by the reduced detection efficiency of the channel plate at low energies. Quantitative experiments using an energy-loss spectrometer are planned. Recently Shedd has shown that at about 100V contrast in PPM images of thin gold films can be explained as Fresnel interference effects between different pinholes in the film, separated by less than the coherence width.

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Electrical Damage Due to Low Energy Plasma Processing of GaAs Structures

MRS Proceedings ◽

10.1557/proc-223-209 ◽

1991 ◽

Vol 223 ◽

Author(s):

Hans P. Zappe ◽

Gudrun Kaufel

Keyword(s):

Chemical Processes ◽

Low Energy ◽

Electrical Behavior ◽

Rapid Thermal Anneal ◽

High Temperature Anneal ◽

Significant Damage ◽

Low Energies ◽

Long Time ◽

Physical Plasma

ABSTRACTThe effect of numerous plasma reative ion etch and physical milling processes on the electrical behavior of GaAs bulk substrates has been investigated by means of electric microwave absorption. It was seen that plasma treatments at quite low energies may significantly affect the electrical quality of the etched semiconductor. Predominantly physical plasma etchants (Ar) were seen to create significant damage at very low energies. Chemical processes (involving Cl or F), while somewhat less pernicious, also gave rise to electrical substrate damage, the effect greater for hydrogenic ambients. Whereas rapid thermal anneal treatments tend to worsen the electrical integrity, some substrates respond positively to long-time high temperature anneal steps.

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Response of $D^0$ U-LAr Calorimeters at Low-Energies and the Effect of Oxygen Contamination on Observed Signals

10.2172/1424424 ◽

1994 ◽

Author(s):

Robert James Hirosky

Keyword(s):

Oxygen Contamination ◽

Low Energies ◽

Effect Of Oxygen

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Observation of Single-Pion Production by a Weak Neutral Current

Physical Review Letters ◽

10.1103/physrevlett.33.448 ◽

1974 ◽

Vol 33 (7) ◽

pp. 448-451 ◽

Cited By ~ 101

Author(s):

S. J. Barish ◽

Y. Cho ◽

M. Derrick ◽

L. G. Hyman ◽

J. Rest ◽

...

Keyword(s):

Pion Production ◽

Neutral Current ◽

Weak Neutral Current

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Effects of the solar wind termination shock and heliosheath on theheliospheric modulation of galactic and anomalous Helium

Annales Geophysicae ◽

10.5194/angeo-22-3063-2004 ◽

2004 ◽

Vol 22 (8) ◽

pp. 3063-3072 ◽

Cited By ~ 15

Author(s):

U. W. Langner ◽

M. S. Potgieter

Keyword(s):

Solar Wind ◽

Cosmic Ray ◽

Magnetic Polarity ◽

Termination Shock ◽

Shock Acceleration ◽

Diffusive Shock Acceleration ◽

Cosmic Ray Modulation ◽

Low Energies ◽

Solar Wind Termination Shock ◽

Charge Sign

Abstract. The interest in the role of the solar wind termination shock and heliosheath in cosmic ray modulation studies has increased significantly as the Voyager 1 and 2 spacecraft approach the estimated position of the solar wind termination shock. The effect of the solar wind termination shock on charge-sign dependent modulation, as is experienced by galactic cosmic ray Helium (He++) and anomalous Helium (He+), is the main topic of this work, and is complementary to the previous work on protons, anti-protons, electrons, and positrons. The modulation of galactic and anomalous Helium is studied with a numerical model including a more fundamental and comprehensive set of diffusion coefficients, a solar wind termination shock with diffusive shock acceleration, a heliosheath and particle drifts. The model allows a comparison of modulation with and without a solar wind termination shock and is applicable to a number of cosmic ray species during both magnetic polarity cycles of the Sun. The modulation of Helium, including an anomalous component, is also done to establish charge-sign dependence at low energies. We found that the heliosheath is important for cosmic ray modulation and that its effect on modulation is very similar for protons and Helium. The local Helium interstellar spectrum may not be known at energies

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