Quasi-invisible thermal cloak based on homogenous materials

Quanwen Hou; Jianbo Yin; Xiaopeng Zhao; Yanqiang Bi

doi:10.1016/j.physleta.2018.05.052

Quasi-invisible thermal cloak based on homogenous materials

Quanwen Hou, Jianbo Yin, Xiaopeng Zhao, Yanqiang Bi

School of Physical Science and Technology

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Invisible thermal cloak, which cancels distortions of temperature distribution caused by objects, has many potential applications in thermal engineering. In this letter, we theoretically proposed and simulatively verified a new design method for quasi-invisible thermal cloak. Different from conventional transformation thermodynamics that focus on complete invisibility, our method only decreases the effective scale of objects to small enough and realizes a quasi-invisible cloaking effect in thermal conduction regime. However, this quasi-invisible cloak has the same effect as that of invisible thermal cloak in practical engineering. More important, our cloak is easy to construct by natural materials due to its homogenous thermal properties and can cloak objects with different shapes and properties. These characters make the clock more comfortable for engineering applications.

Original language	English
Pages (from-to)	2382-2387
Number of pages	6
Journal	Physics Letters, Section A: General, Atomic and Solid State Physics
Volume	382
Issue number	34
DOIs	https://doi.org/10.1016/j.physleta.2018.05.052
State	Published - 31 Aug 2018

Keywords

Metamaterials
Thermal cloak
Thermal conduction
Transformation thermodynamics

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10.1016/j.physleta.2018.05.052

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title = "Quasi-invisible thermal cloak based on homogenous materials",

abstract = "Invisible thermal cloak, which cancels distortions of temperature distribution caused by objects, has many potential applications in thermal engineering. In this letter, we theoretically proposed and simulatively verified a new design method for quasi-invisible thermal cloak. Different from conventional transformation thermodynamics that focus on complete invisibility, our method only decreases the effective scale of objects to small enough and realizes a quasi-invisible cloaking effect in thermal conduction regime. However, this quasi-invisible cloak has the same effect as that of invisible thermal cloak in practical engineering. More important, our cloak is easy to construct by natural materials due to its homogenous thermal properties and can cloak objects with different shapes and properties. These characters make the clock more comfortable for engineering applications.",

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T1 - Quasi-invisible thermal cloak based on homogenous materials

AU - Hou, Quanwen

AU - Yin, Jianbo

AU - Zhao, Xiaopeng

AU - Bi, Yanqiang

PY - 2018/8/31

Y1 - 2018/8/31

N2 - Invisible thermal cloak, which cancels distortions of temperature distribution caused by objects, has many potential applications in thermal engineering. In this letter, we theoretically proposed and simulatively verified a new design method for quasi-invisible thermal cloak. Different from conventional transformation thermodynamics that focus on complete invisibility, our method only decreases the effective scale of objects to small enough and realizes a quasi-invisible cloaking effect in thermal conduction regime. However, this quasi-invisible cloak has the same effect as that of invisible thermal cloak in practical engineering. More important, our cloak is easy to construct by natural materials due to its homogenous thermal properties and can cloak objects with different shapes and properties. These characters make the clock more comfortable for engineering applications.

AB - Invisible thermal cloak, which cancels distortions of temperature distribution caused by objects, has many potential applications in thermal engineering. In this letter, we theoretically proposed and simulatively verified a new design method for quasi-invisible thermal cloak. Different from conventional transformation thermodynamics that focus on complete invisibility, our method only decreases the effective scale of objects to small enough and realizes a quasi-invisible cloaking effect in thermal conduction regime. However, this quasi-invisible cloak has the same effect as that of invisible thermal cloak in practical engineering. More important, our cloak is easy to construct by natural materials due to its homogenous thermal properties and can cloak objects with different shapes and properties. These characters make the clock more comfortable for engineering applications.

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Quasi-invisible thermal cloak based on homogenous materials

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Keywords

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