Singularity and nonlinearity in the Kapitza resistance between gold and superfluid sup 4 He near T sub. lambda

We report experimental results for the Kapitza resistance {ital R}{sub {ital K}} between gold and superfluid {sup 4}He, which were obtained by using very-high-resolution thermometry. The data imply that {ital R}{sub {ital K}} is singular at the superfluid transition temperature {ital T}{sub {lambda}...

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Veröffentlicht in:	Physical review. B, Condensed matter Condensed matter, 1991-04, Vol.43:10
Hauptverfasser:	Duncan, R.V., Ahlers, G.
Format:	Artikel
Sprache:	eng
Schlagworte:	640450 - Fluid Physics- Superfluidity CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY ELEMENTS EVEN-EVEN NUCLEI FLUIDS GOLD HELIUM 4 HELIUM II HELIUM ISOTOPES ISOTOPES KAPITZA RESISTANCE LIGHT NUCLEI METALS NONLINEAR PROBLEMS NUCLEI QUANTUM FLUIDS SINGULARITY STABLE ISOTOPES SUPERFLUIDITY TEMPERATURE MEASUREMENT THERMAL BOUNDARY RESISTANCE TRANSITION ELEMENTS
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container_title	Physical review. B, Condensed matter
container_volume	43:10
creator	Duncan, R.V. Ahlers, G.
description	We report experimental results for the Kapitza resistance {ital R}{sub {ital K}} between gold and superfluid {sup 4}He, which were obtained by using very-high-resolution thermometry. The data imply that {ital R}{sub {ital K}} is singular at the superfluid transition temperature {ital T}{sub {lambda}}. Comparison with theory suggests that the singularity results from a hydrodynamic effect proposed by Landau, and that it is associated with the vanishing of the superfluid and normal-fluid currents at the boundaries. Recently a quantitative prediction of the singular part of this Kapitza resistance has been made based on dynamic renormalization-group theory. This theory requires no adjustable parameters and it agrees well with our data. The measurements of {ital R}{sub {ital K}} are independent of the heat flux {ital Q} only for reduced temperatures {ital t}=1{minus}{ital T}/{ital T}{sub {lambda}} greater than a characteristic value {ital t}{sub {ital c}}. We find that {ital t}{sub {ital c}} is approximately proportional to {ital Q}, and that for {ital t}{lt}{ital t}{sub {ital c}} the maximum value of ({partial derivative}{ital R}{sub {ital K}}/{partial derivative}{ital Q}){sub {ital t}} is approximately proportional to 1/{ital t}. The {ital Q}-dependent contribution {ital R}{sub {ital K}{ital Q}} to {ital R}{sub {ital K}} can be represented by a function of the single variable {ital Q}/{ital t}. For large {ital Q}/{ital t}, this function saturates at a value near 0.35 cm{sup 2} K/W. We know of no theory that predicts the dependence of {ital R}{sub {ital K}} on {ital Q}.
doi_str_mv	10.1103/PhysRevB.43.7707
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The data imply that {ital R}{sub {ital K}} is singular at the superfluid transition temperature {ital T}{sub {lambda}}. Comparison with theory suggests that the singularity results from a hydrodynamic effect proposed by Landau, and that it is associated with the vanishing of the superfluid and normal-fluid currents at the boundaries. Recently a quantitative prediction of the singular part of this Kapitza resistance has been made based on dynamic renormalization-group theory. This theory requires no adjustable parameters and it agrees well with our data. The measurements of {ital R}{sub {ital K}} are independent of the heat flux {ital Q} only for reduced temperatures {ital t}=1{minus}{ital T}/{ital T}{sub {lambda}} greater than a characteristic value {ital t}{sub {ital c}}. We find that {ital t}{sub {ital c}} is approximately proportional to {ital Q}, and that for {ital t}{lt}{ital t}{sub {ital c}} the maximum value of ({partial derivative}{ital R}{sub {ital K}}/{partial derivative}{ital Q}){sub {ital t}} is approximately proportional to 1/{ital t}. The {ital Q}-dependent contribution {ital R}{sub {ital K}{ital Q}} to {ital R}{sub {ital K}} can be represented by a function of the single variable {ital Q}/{ital t}. For large {ital Q}/{ital t}, this function saturates at a value near 0.35 cm{sup 2} K/W. 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The data imply that {ital R}{sub {ital K}} is singular at the superfluid transition temperature {ital T}{sub {lambda}}. Comparison with theory suggests that the singularity results from a hydrodynamic effect proposed by Landau, and that it is associated with the vanishing of the superfluid and normal-fluid currents at the boundaries. Recently a quantitative prediction of the singular part of this Kapitza resistance has been made based on dynamic renormalization-group theory. This theory requires no adjustable parameters and it agrees well with our data. The measurements of {ital R}{sub {ital K}} are independent of the heat flux {ital Q} only for reduced temperatures {ital t}=1{minus}{ital T}/{ital T}{sub {lambda}} greater than a characteristic value {ital t}{sub {ital c}}. We find that {ital t}{sub {ital c}} is approximately proportional to {ital Q}, and that for {ital t}{lt}{ital t}{sub {ital c}} the maximum value of ({partial derivative}{ital R}{sub {ital K}}/{partial derivative}{ital Q}){sub {ital t}} is approximately proportional to 1/{ital t}. The {ital Q}-dependent contribution {ital R}{sub {ital K}{ital Q}} to {ital R}{sub {ital K}} can be represented by a function of the single variable {ital Q}/{ital t}. For large {ital Q}/{ital t}, this function saturates at a value near 0.35 cm{sup 2} K/W. We know of no theory that predicts the dependence of {ital R}{sub {ital K}} on {ital Q}.</description><subject>640450 - Fluid Physics- Superfluidity</subject><subject>CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY</subject><subject>ELEMENTS</subject><subject>EVEN-EVEN NUCLEI</subject><subject>FLUIDS</subject><subject>GOLD</subject><subject>HELIUM 4</subject><subject>HELIUM II</subject><subject>HELIUM ISOTOPES</subject><subject>ISOTOPES</subject><subject>KAPITZA RESISTANCE</subject><subject>LIGHT NUCLEI</subject><subject>METALS</subject><subject>NONLINEAR PROBLEMS</subject><subject>NUCLEI</subject><subject>QUANTUM FLUIDS</subject><subject>SINGULARITY</subject><subject>STABLE ISOTOPES</subject><subject>SUPERFLUIDITY</subject><subject>TEMPERATURE MEASUREMENT</subject><subject>THERMAL BOUNDARY RESISTANCE</subject><subject>TRANSITION ELEMENTS</subject><issn>0163-1829</issn><issn>1095-3795</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1991</creationdate><recordtype>article</recordtype><recordid>eNqNTMtOwzAQtCqQCI87xxX3BLtuHHIFFVXigqD3ynG2zSJ3U2UdUPv1lMIHMJd5aGaUujW6MEbb-9duL2_4-VjMbFFVupqozOi6zG1Vl2cq08bZ3DxM6wt1KfKhj5i6OlP8TrwZox8o7cFzC9xzJMbfgBhSh_Did5QOHgYUkuQ5IDSYvhAZNn1sTzsZdzis40gnCTNYIPzcwPLomwKi3zatv1bnax8Fb_74St09z5dPi7yXRCsJlDB0oWfGkFalc6Vx2v6r9A38I1EG</recordid><startdate>19910401</startdate><enddate>19910401</enddate><creator>Duncan, R.V.</creator><creator>Ahlers, G.</creator><scope>OTOTI</scope></search><sort><creationdate>19910401</creationdate><title>Singularity and nonlinearity in the Kapitza resistance between gold and superfluid sup 4 He near T sub. lambda</title><author>Duncan, R.V. ; Ahlers, G.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-osti_scitechconnect_56651603</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1991</creationdate><topic>640450 - Fluid Physics- Superfluidity</topic><topic>CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY</topic><topic>ELEMENTS</topic><topic>EVEN-EVEN NUCLEI</topic><topic>FLUIDS</topic><topic>GOLD</topic><topic>HELIUM 4</topic><topic>HELIUM II</topic><topic>HELIUM ISOTOPES</topic><topic>ISOTOPES</topic><topic>KAPITZA RESISTANCE</topic><topic>LIGHT NUCLEI</topic><topic>METALS</topic><topic>NONLINEAR PROBLEMS</topic><topic>NUCLEI</topic><topic>QUANTUM FLUIDS</topic><topic>SINGULARITY</topic><topic>STABLE ISOTOPES</topic><topic>SUPERFLUIDITY</topic><topic>TEMPERATURE MEASUREMENT</topic><topic>THERMAL BOUNDARY RESISTANCE</topic><topic>TRANSITION ELEMENTS</topic><toplevel>online_resources</toplevel><creatorcontrib>Duncan, R.V.</creatorcontrib><creatorcontrib>Ahlers, G.</creatorcontrib><collection>OSTI.GOV</collection><jtitle>Physical review. B, Condensed matter</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Duncan, R.V.</au><au>Ahlers, G.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Singularity and nonlinearity in the Kapitza resistance between gold and superfluid sup 4 He near T sub. lambda</atitle><jtitle>Physical review. B, Condensed matter</jtitle><date>1991-04-01</date><risdate>1991</risdate><volume>43:10</volume><issn>0163-1829</issn><eissn>1095-3795</eissn><abstract>We report experimental results for the Kapitza resistance {ital R}{sub {ital K}} between gold and superfluid {sup 4}He, which were obtained by using very-high-resolution thermometry. The data imply that {ital R}{sub {ital K}} is singular at the superfluid transition temperature {ital T}{sub {lambda}}. Comparison with theory suggests that the singularity results from a hydrodynamic effect proposed by Landau, and that it is associated with the vanishing of the superfluid and normal-fluid currents at the boundaries. Recently a quantitative prediction of the singular part of this Kapitza resistance has been made based on dynamic renormalization-group theory. This theory requires no adjustable parameters and it agrees well with our data. The measurements of {ital R}{sub {ital K}} are independent of the heat flux {ital Q} only for reduced temperatures {ital t}=1{minus}{ital T}/{ital T}{sub {lambda}} greater than a characteristic value {ital t}{sub {ital c}}. We find that {ital t}{sub {ital c}} is approximately proportional to {ital Q}, and that for {ital t}{lt}{ital t}{sub {ital c}} the maximum value of ({partial derivative}{ital R}{sub {ital K}}/{partial derivative}{ital Q}){sub {ital t}} is approximately proportional to 1/{ital t}. The {ital Q}-dependent contribution {ital R}{sub {ital K}{ital Q}} to {ital R}{sub {ital K}} can be represented by a function of the single variable {ital Q}/{ital t}. For large {ital Q}/{ital t}, this function saturates at a value near 0.35 cm{sup 2} K/W. We know of no theory that predicts the dependence of {ital R}{sub {ital K}} on {ital Q}.</abstract><cop>United States</cop><doi>10.1103/PhysRevB.43.7707</doi></addata></record>
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subjects	640450 - Fluid Physics- Superfluidity CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY ELEMENTS EVEN-EVEN NUCLEI FLUIDS GOLD HELIUM 4 HELIUM II HELIUM ISOTOPES ISOTOPES KAPITZA RESISTANCE LIGHT NUCLEI METALS NONLINEAR PROBLEMS NUCLEI QUANTUM FLUIDS SINGULARITY STABLE ISOTOPES SUPERFLUIDITY TEMPERATURE MEASUREMENT THERMAL BOUNDARY RESISTANCE TRANSITION ELEMENTS
title	Singularity and nonlinearity in the Kapitza resistance between gold and superfluid sup 4 He near T sub. lambda
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