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An electron tunneling study of superconductivity in amorphous Sn(sub 1-x)Cu(sub x) thin films (1995)

Watson, P. W., III ; Rathnayaka, K. D. D. ; Naugle, D. G.

In: CASI

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Publication Date: 2019-06-28

Description: The amorphous phase of Sn would have a superconducting transition temperature near 8 K, much higher than that of crystalline Sn with T(sub c) = 3.5 K. To obtain the amorphous phase, however, it is necessary to use a Sn alloy, usually Cu, and quench condense the alloy films onto a liquid He temperature substrate. Alloying with Cu reduces the superconducting transition temperature almost linearly with Cu concentration with an extrapolation of T(sub c) to zero for x = 0.85. Analysis of the tunneling characteristics between a normal metal electrode with an insulating barrier and superconducting amorphous Sn-Cu films provides detailed information on the changes in the electron-phonon coupling which determines T(sub c) in these alloys. The change from very strong electron-phonon coupling to weak-coupling with the increase in Cu content of amorphous Sn-Cu alloys for the range 0.08 is less than or equal to x is less than or equal to 0.41 is presented and discussed in terms of theories of electron-phonon coupling in disordered metals.

Keywords: SOLID-STATE PHYSICS

Type: NASA. Johnson Space Center, Proceedings of the 4th International Conference and Exhibition: World Congress on Superconductivity, Volume 1; p 222-23

Format: application/pdf

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Variable reluctance switch avoids contact corrosion and contact bounce (1967)

Watson, P. C.

In: CASI

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Publication Date: 2019-06-27

Description: Variable reluctance switch avoids contact corrosion and bounce in a hostile environment. It consists of a wire-wound magnetic core and moveable bridge piece that alters the core flux pattern to produce an electrical output useful for switching control media.

Keywords: ELECTRONIC COMPONENTS AND CIRCUITS

Type: MSC-1178

Format: application/pdf

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Glucose uptake and glycogen synthesis in muscles from immobilized limbs (1984)

Booth, F. W. ; Watson, P. A. ; Nicholson, W. F.

In: Other Sources

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Publication Date: 2019-06-28

Description: Defects in glucose metabolism in muscles of immobilized limbs of mice were related to alterations in insulin binding, insulin responsiveness, glucose supply, and insulin activation of glycogen synthase. These were tested by in vitro methodology. A significant lessening in the insulin-induced maximal response of 2-deoxyglucose uptake into the mouse soleus muscle occurred between the 3rd and 8th h of limb immobilization, suggesting a decreased insulin responsiveness. Lack of change in the specific binding of insulin to muscles of 24-h immobilized limbs indicates that a change in insulin receptor number did not play a role in the failure of insulin to stimulate glucose metabolism. Its inability to stimulate glycogen synthesis in muscle from immobilized limbs is due, in part, to a lack of glucose supply to glycogen synthesis and also to the ineffectiveness of insulin to increase the percentage of glycogen synthase in its active form in muscles from 24-h immobilized limbs.

Keywords: LIFE SCIENCES (GENERAL)

Type: Journal of Applied Physiology: Respiratory, Environmental and Exercise Physiology (ISSN 0161-7567); 56; 431-435

Format: text

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