Heat transfer and thermoelectric voltage at metallic point contacts

Patrick E. Phelan; O. Nakabeppu; K. Ito; Kunio Hijikata; T. Ohmori; K. Torikoshi

Heat transfer and thermoelectric voltage at metallic point contacts

Patrick E. Phelan, O. Nakabeppu, K. Ito, Kunio Hijikata, T. Ohmori, K. Torikoshi

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Metallic point contacts have been extensively studied from the viewpoint of their interesting, and often nonlinear, electrical properties. Their thermal characteristics, however, have largely been ignored, even though they show great potential as microscale temperature sensors. It has been previously demonstrated that when a temperature drop exists across a point contact consisting of two identical metals, a thermoelectric voltage can be generated, provided the mean contact radius is comparable in size to the electron mean free path. In the present experimental study, a point contact is formed by pressing a sharply etched Ag whisker against either a Ag or a Cu flat plate. In addition to confirming the previous results, the feasibility of using such a point contact is demonstrated by calibrating the voltage output against the nondimensionalized plate temperature. Furthermore, the thermoelectric voltage at a Ag-Cu point contact is also presented, showing that a point contact made from dissimilar metals is even more promising than one made from identical materials. Finally, the point-contact thermal resistance is demonstrated to depend nonlinearly on the electrical resistance, or contact area, and on the temperature drop.

Original language	English
Title of host publication	Heat Transfer on the Microscale
Publisher	Publ by ASME
Pages	63-69
Number of pages	7
ISBN (Print)	0791809269
Publication status	Published - 1992
Externally published	Yes
Event	28th National Heat Transfer Conference and Exhibition - San Diego, CA, USA Duration: Aug 9 1992 → Aug 12 1992

Publication series

Name	American Society of Mechanical Engineers, Heat Transfer Division, (Publication) HTD
Volume	200
ISSN (Print)	0272-5673

Other

Other	28th National Heat Transfer Conference and Exhibition
City	San Diego, CA, USA
Period	8/9/92 → 8/12/92

All Science Journal Classification (ASJC) codes

Mechanical Engineering
Fluid Flow and Transfer Processes

Cite this

Phelan, PE, Nakabeppu, O, Ito, K, Hijikata, K, Ohmori, T & Torikoshi, K 1992, Heat transfer and thermoelectric voltage at metallic point contacts. in Heat Transfer on the Microscale. American Society of Mechanical Engineers, Heat Transfer Division, (Publication) HTD, vol. 200, Publ by ASME, pp. 63-69, 28th National Heat Transfer Conference and Exhibition, San Diego, CA, USA, 8/9/92.

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title = "Heat transfer and thermoelectric voltage at metallic point contacts",

abstract = "Metallic point contacts have been extensively studied from the viewpoint of their interesting, and often nonlinear, electrical properties. Their thermal characteristics, however, have largely been ignored, even though they show great potential as microscale temperature sensors. It has been previously demonstrated that when a temperature drop exists across a point contact consisting of two identical metals, a thermoelectric voltage can be generated, provided the mean contact radius is comparable in size to the electron mean free path. In the present experimental study, a point contact is formed by pressing a sharply etched Ag whisker against either a Ag or a Cu flat plate. In addition to confirming the previous results, the feasibility of using such a point contact is demonstrated by calibrating the voltage output against the nondimensionalized plate temperature. Furthermore, the thermoelectric voltage at a Ag-Cu point contact is also presented, showing that a point contact made from dissimilar metals is even more promising than one made from identical materials. Finally, the point-contact thermal resistance is demonstrated to depend nonlinearly on the electrical resistance, or contact area, and on the temperature drop.",

author = "Phelan, {Patrick E.} and O. Nakabeppu and K. Ito and Kunio Hijikata and T. Ohmori and K. Torikoshi",

year = "1992",

language = "English",

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series = "American Society of Mechanical Engineers, Heat Transfer Division, (Publication) HTD",

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note = "28th National Heat Transfer Conference and Exhibition ; Conference date: 09-08-1992 Through 12-08-1992",

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TY - GEN

T1 - Heat transfer and thermoelectric voltage at metallic point contacts

AU - Phelan, Patrick E.

AU - Nakabeppu, O.

AU - Ito, K.

AU - Hijikata, Kunio

AU - Ohmori, T.

AU - Torikoshi, K.

PY - 1992

Y1 - 1992

N2 - Metallic point contacts have been extensively studied from the viewpoint of their interesting, and often nonlinear, electrical properties. Their thermal characteristics, however, have largely been ignored, even though they show great potential as microscale temperature sensors. It has been previously demonstrated that when a temperature drop exists across a point contact consisting of two identical metals, a thermoelectric voltage can be generated, provided the mean contact radius is comparable in size to the electron mean free path. In the present experimental study, a point contact is formed by pressing a sharply etched Ag whisker against either a Ag or a Cu flat plate. In addition to confirming the previous results, the feasibility of using such a point contact is demonstrated by calibrating the voltage output against the nondimensionalized plate temperature. Furthermore, the thermoelectric voltage at a Ag-Cu point contact is also presented, showing that a point contact made from dissimilar metals is even more promising than one made from identical materials. Finally, the point-contact thermal resistance is demonstrated to depend nonlinearly on the electrical resistance, or contact area, and on the temperature drop.

AB - Metallic point contacts have been extensively studied from the viewpoint of their interesting, and often nonlinear, electrical properties. Their thermal characteristics, however, have largely been ignored, even though they show great potential as microscale temperature sensors. It has been previously demonstrated that when a temperature drop exists across a point contact consisting of two identical metals, a thermoelectric voltage can be generated, provided the mean contact radius is comparable in size to the electron mean free path. In the present experimental study, a point contact is formed by pressing a sharply etched Ag whisker against either a Ag or a Cu flat plate. In addition to confirming the previous results, the feasibility of using such a point contact is demonstrated by calibrating the voltage output against the nondimensionalized plate temperature. Furthermore, the thermoelectric voltage at a Ag-Cu point contact is also presented, showing that a point contact made from dissimilar metals is even more promising than one made from identical materials. Finally, the point-contact thermal resistance is demonstrated to depend nonlinearly on the electrical resistance, or contact area, and on the temperature drop.

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M3 - Conference contribution

AN - SCOPUS:0027072945

SN - 0791809269

T3 - American Society of Mechanical Engineers, Heat Transfer Division, (Publication) HTD

SP - 63

EP - 69

BT - Heat Transfer on the Microscale

PB - Publ by ASME

T2 - 28th National Heat Transfer Conference and Exhibition

Y2 - 9 August 1992 through 12 August 1992

ER -

Heat transfer and thermoelectric voltage at metallic point contacts

Abstract

Publication series

Other

All Science Journal Classification (ASJC) codes

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