OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

科学通报 2011

常规材料与超材料间的近场辐射换热分析

, PP. 1597-1604

郑志恒,宣益民

Keywords: 近场效应,近场辐射换热,材料组合,超材料

Full-Text Cite this paper Add to My Lib

Abstract:

研究了超材料参数对辐射热交换的影响,同时分别选用超材料、铝、硼掺杂硅3种材料,计算并分析了两个半无限大物体光滑平行表面间的近场辐射换热.数值计算结果表明,不同材料间的辐射热交换与对应的同种材料之间的辐射热交换相比,辐射热交换的增强和减弱取决于材料的辐射性质.本工作将为实际应用中材料的选择提供一定的参考价值.

References

[1]	12 Wang X J, Basu S, Zhang Z M. Parametric optimization of dielectric functions for maximizing nanoscale radiative transfer. J Phys D:Appl Phys, 2009, 43: 245403
[2]	24 Zheng Z H, Xuan Y M. Theory of near-field radiative heat transfer for stratified magnetic media. Int J Heat Mass Transfer, 2011, 54:1101-1110？？
[3]	25 Skaar J. Fresnel equations and the refractive index of active media. Phys Rev E, 2006, 73: 026605？？
[4]	26 Fu C J, Zhang Z M. Thermal radiative properties of metamaterials and other nanostructured materials: A review. Front Energy Power EngChina, 2009, 3: 11-26？？
[5]	29 Chakrabarti S, Ramakrishna S A, Wanare H. Coherently controlling metamaterials. Opt Express, 2008, 16: 19504-19511？？
[6]	30 Pendry J B, Holden A J, Stewart W J, et al. Extremely low frequency plasmons in metallic mesostructures. Phys Rev Lett, 1996, 76:4773-4776？？
[7]	32 Smith D R, Padilla W J, Vier D C, et al. Composite medium with simultaneously negative permeability and permittivity. Phys Rev Lett,2000, 84: 4184-4187？？
[8]	37 Francoeur M, Menguc M P, Vaillon R. Spectral tunning of near-field radiative heat flux between two thin silicon carbide films. J Phys D:Appl Phys, 2010, 43: 075501？？
[9]	38 Francoeur M, Menguc M P, Vaillon R. Local density of electromagnetic states within a nanometric gap formed between two thin filmssupporting surface phonon polaritons. J Phys D: Appl Phys, 2010, 107: 034313
[10]	39 Francoeur M, Menguc M P. Role of fluctuational electrodynamics in near-field radiative heat transfer. J Quant Spectrosc Radiat Transfer,2008, 109: 280-293？？
[11]	2 Schwede J W, Bargatin I, Riley D C, et al. Photon-enhanced thermionic emission for solar concentrator systems. Nat Mater, 2010, 9:762-767？？
[12]	3 Basu S, Chen Y B, Zhang Z M. Microscale radiation in thermophotovoltaic devices—A review. Int J Energy Res, 2007, 31: 689-716？？
[13]	5 Shakouri A. Nanoscale thermal transport and microrefrigerators on a chip. Proc IEEE, 2006, 94: 1613-1638？？
[14]	6 Pendry J B. Radiative exchange of heat between nanostructures. J Phys: Condens Matter, 1999, 11: 6621-6633？？
[15]	8 Basu S, Zhang Z M. Maximum energy transfer in near-field thermal radiation at nanometer distances. J Appl Phys, 2009, 105: 093535？？
[16]	10 Narayanaswamy A, Chen G. Direct computation of thermal emission from nanostructures. Ann Rev Heat Transfer, 2005, 14: 169-195
[17]	1 Chowdhury I, Prasher R, Lofgreen K, et al. On-chip cooling by superlattice-based thin-film thermoelectrics. Nat Nanotechnol, 2009, 4:235-238？？
[18]	4 Schubert E F. Light-emitting Diodes. 2nd ed. Cambridge: Cambridge University Press, 2006
[19]	7 Joulain K, Mulet J-P, Marquier F, et al. Surface electromagnetic waves thermally excited: Radiative heat transfer, coherence propertiesand Casimir forces revisited in the near field. Surf Sci Rep, 2005, 57: 59-112？？
[20]	9 Francoeur M, Menguc M P, Vaillon R. Solution of near-field thermal radiation in one-dimensional layered media using dyadic Green’sfunctions and the scattering matrix method. J Quant Spectrosc Radiat Transfer, 2009, 110: 2002-2018？？
[21]	11 Volokitin A, Persson B N J. Near-field radiative heat transfer and noncontact friction. Rev Mod Phys, 2007, 79: 1291-1329？？
[22]	13 Basu S, Zhang Z M, Fu C J. Review of near-field thermal radiation and its application to energy conversion. Int J Energy Res, 2009, 33:1203-1232？？
[23]	14 Fu C J, Tan W C. Near-field radiative heat transfer between two plane surfaces with one having a dielectric coating. J Quant SpectroscRadiat Transfer, 2009, 110: 1027-1036？？
[24]	15 Mulet J-P, Joulian K, Carminati R, et al. Enhanced radiative heat transfer at nanometric distances. Microscale Thermophys Eng, 2002, 6:209-222？？
[25]	16 Polder D, Van Hove M. Theory of radiative heat transfer between closely spaced bodies. Phys Rev B, 1971, 4: 3303-3314？？
[26]	17 帅永, 车志钊, 张昊春, 等. 平面进场辐射的单色效应和偏振态. 工程热物理学报, 2008, 29: 1002-1004
[27]	18 韩茂华, 梁新刚. 球形粒子的近场辐射换热换热研究. 工程热物理学报, 2007, 28: 107-109
[28]	19 Joulain K, Drevillon J, Ben-Abdallah P. Noncontact heat transfer between two metamaterials. Phys Rev B, 2010, 81: 165119？？
[29]	20 Fu C J, Zhang Z M. Nanoscale radiation heat transfer for silicon at different doping levels. Int J Heat Mass Transfer, 2006, 49: 1703-1718？？
[30]	21 Biehs S-A, Reddig D, Holthaus M. Thermal radiation and near-field energy density of thin metallic films. Eur Phys J B, 2007, 55:237-251？？
[31]	22 Loomis J J, Maris H J. Theory of heat transfer by evanescent electromagnetic waves. Phys Rev B, 1994, 50: 18517-18524？？
[32]	23 Rytov S M, Kravtsov Yu A, Tatarskii V I. Principles of Statistical Radiophysics. New York: Springer-Verlag, 1987
[33]	27 Sipe J E. New Green-function formalism for surface optics. J Opt Soc Am B, 1987, 4: 481-489
[34]	28 程小超, 付全红, 娄勇, 等. 超材料异质结构楔形光波导引起的光谱空间分离现象. 科学通报. 2010, 55: 1626-1631
[35]	31 Pendry J B, Holden A J, Robbins D J, et al. Magnetism from conductors and enhanced nonlinear phenomena. IEEE Trans MicrowaveTheory Tech, 1999, 47: 2075-2084？？
[36]	33 Fu C J. Radiative properties of emergings materials and radiation heat transfer at the nanoscale. Doctoral Dissertation. Atlanta: GeorgiaInstitute of Technology, 2004
[37]	34 Veselago V G. The electrodynamics of substances with simultaneously negative values of ε and μ. Sov Phys Usp, 1968, 10: 509-514？？
[38]	35 Fu C J, Zhang Z M. Planar heterogeneous structures for coherent emission of radiation. Opt Lett, 2005, 30: 1873-1875？？
[39]	36 Park K, Lee B J, Fu C J, et al. Study of the surface and bulk polaritons with a negative index metamaterial. J Opt Soc Am B, 2005, 22:1016-1023？？

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133