A. M. Savin scite author profile

This review presents an overview of the thermal properties of mesoscopic structures. The discussion is based on the concept of electron energy distribution, and, in particular, on controlling and probing it. The temperature of an electron gas is determined by this distribution: refrigeration is equivalent to narrowing it, and thermometry is probing its convolution with a function characterizing the measuring device. Temperature exists, strictly speaking, only in quasiequilibrium in which the distribution follows the Fermi-Dirac form. Interesting nonequilibrium deviations can occur due to slow relaxation rates of the electrons, e.g., among themselves or with lattice phonons. Observation and applications of nonequilibrium phenomena are also discussed. The focus in this paper is at low temperatures, primarily below 4 K, where physical phenomena on mesoscopic scales and hybrid combinations of various types of materials, e.g., superconductors, normal metals, insulators, and doped semiconductors, open up a rich variety of device concepts. This review starts with an introduction to theoretical concepts and experimental results on thermal properties of mesoscopic structures. Then thermometry and refrigeration are examined with an emphasis on experiments. An immediate application of solid-state refrigeration and thermometry is in ultrasensitive radiation detection, which is discussed in depth. This review concludes with a summary of pertinent fabrication methods of presented devices.

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Limitations in Cooling Electrons using Normal-Metal-Superconductor Tunnel Junctions

Pekola¹,

Heikkilä²,

Savin³

et al. 2004

Phys. Rev. Lett.

106

141

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We demonstrate both theoretically and experimentally two limiting factors in cooling electrons using biased tunnel junctions to extract heat from a normal metal into a superconductor. Firstly, when the injection rate of electrons exceeds the internal relaxation rate in the metal to be cooled, the electrons do no more obey the Fermi-Dirac distribution, and the concept of temperature cannot be applied as such. Secondly, at low bath temperatures, states within the gap induce anomalous heating and yield a theoretical limit of the achievable minimum temperature.

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Erratum: Opportunities for mesoscopics in thermometry and refrigeration: Physics and applications [Rev. Mod. Phys. 78, 217 (2006)]

Giazotto¹,

Heikkilä²,

Luukanen³

et al. 2009

Rev. Mod. Phys.

141

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Heat Transistor: Demonstration of Gate-Controlled Electronic Refrigeration

Saira¹,

Meschke²,

et al. 2007

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We present experiments on a superconductor-normal metal electron refrigerator in a regime where single-electron charging effects are significant. The system functions as a heat transistor, i. e., the heat flux out from the normal metal island can be controlled with a gate voltage. A theoretical model developed within the framework of single-electron tunneling provides a full quantitative agreement with the experiment. This work serves as the first experimental observation of Coulombic control of heat transfer and, in particular, of refrigeration in a mesoscopic system.

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Recombination-Limited Energy Relaxation in a Bardeen-Cooper-Schrieffer Superconductor

et al. 2009

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We study quasiparticle energy relaxation at subkelvin temperatures by injecting hot electrons into an Al island and measuring the energy flux from quasiparticles into phonons both in the superconducting and in the normal state. The data show strong reduction of the flux at low temperatures in the superconducting state, in qualitative agreement with the theory for clean superconductors. However, quantitatively the energy flux exceeds the theoretical predictions both in the superconducting and in the normal state, suggesting an enhanced or additional relaxation process.

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A. M. Savin

Opportunities for mesoscopics in thermometry and refrigeration: Physics and applications

Limitations in Cooling Electrons using Normal-Metal-Superconductor Tunnel Junctions

Erratum: Opportunities for mesoscopics in thermometry and refrigeration: Physics and applications [Rev. Mod. Phys. 78, 217 (2006)]

Heat Transistor: Demonstration of Gate-Controlled Electronic Refrigeration

Recombination-Limited Energy Relaxation in a Bardeen-Cooper-Schrieffer Superconductor

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