МДС: Публикации по направлениям — различия между версиями

Материал из Department of Theoretical and Applied Mechanics
Перейти к: навигация, поиск
м (Гиперболическая теплопроводность)
Строка 70: Строка 70:
  
 
* [https://nelson.mit.edu/keith-nelson J. A. Johnson], [https://nelson.mit.edu/alexei-maznev A. A. Maznev], J. Cuffe, J. K. Eliason, A. J. Minnich, [http://www.icn.cat/index.php/funded-projects/projects/staff/timothy-kehoe T. Kehoe], C. M. Sotomayor Torres, G. Chen, K. A. Nelson. '''Direct Measurement of Room-Temperature Nondiffusive Thermal Transport Over Micron Distances in a Silicon Membrane.''' Phys. Rev. Lett. (2013), volume 110, issue 2, 025901. ([http://journals.aps.org/prl/abstract/10.1103/PhysRevLett.110.025901 Abstract], [http://arxiv.org/ftp/arxiv/papers/1204/1204.4735.pdf pdf])
 
* [https://nelson.mit.edu/keith-nelson J. A. Johnson], [https://nelson.mit.edu/alexei-maznev A. A. Maznev], J. Cuffe, J. K. Eliason, A. J. Minnich, [http://www.icn.cat/index.php/funded-projects/projects/staff/timothy-kehoe T. Kehoe], C. M. Sotomayor Torres, G. Chen, K. A. Nelson. '''Direct Measurement of Room-Temperature Nondiffusive Thermal Transport Over Micron Distances in a Silicon Membrane.''' Phys. Rev. Lett. (2013), volume 110, issue 2, 025901. ([http://journals.aps.org/prl/abstract/10.1103/PhysRevLett.110.025901 Abstract], [http://arxiv.org/ftp/arxiv/papers/1204/1204.4735.pdf pdf])
 +
 +
* S. Liu, X. F. Xu, R. G. Xie, G. Zhang, B. W. Li. '''Anomalous heat conduction and anomalous diffusion in low dimensional nanoscale systems.''' The European Physical Journal B (2012), 85:337. [http://link.springer.com/article/10.1140/epjb/e2012-30383-8# Abstract]
 +
 +
* T. S. Tighe, J. M. Worlock, M. L. Roukesb. '''Direct thermal conductance measurements on suspended monocrystalline nanostructures.''' Appl. Phys. Lett. (1997), volume 70, issue 20, 2687. [http://nano.caltech.edu/publications/papers/tighe.pdf pdf]
 +
 +
* А.В. Елецкий, И.М. Искандарова, А.А. Книжник, Д.Н. Красиков. '''Графен: методы получения и теплофизические свойства.''' УФН (2011), 181, №3, 233–268. [http://ufn.ru/ru/articles/2011/3/a/ Abstract]
 +
 +
* A. A. Balandin. '''Thermal Properties of Graphene, Carbon Nanotubes and Nanostructured Carbon Materials.''' 2011. [http://arxiv.org/ftp/arxiv/papers/1106/1106.3789.pdf pdf]
 +
 +
* Hang Zhang, Chengyun Hua, Ding Ding & Austin J. Minnich. '''Length Dependent Thermal Conductivity Measurements Yield Phonon Mean Free Path Spectra in Nanostructures.''' Scientific Reports 5, Article number: 9121, 2015. [http://www.nature.com/srep/2015/150313/srep09121/full/srep09121.html Abstract]
 +
 +
* Xiangfan Xu, Luiz F. C. Pereira, Yu Wang, Jing Wu, Kaiwen Zhang, Xiangming Zhao, Sukang Bae, Cong Tinh Bui, Rongguo Xie, John T. L. Thong, Byung Hee Hong, Kian Ping Loh, Davide Donadio, Baowen Li & Barbaros Özyilmaz. '''Length-dependent thermal conductivity in suspended single-layer graphene.''' Nature Communications 5, Article number: 3689 , 2014. [http://www.nature.com/ncomms/2014/140416/ncomms4689/full/ncomms4689.html Abstract]
 +
 +
* Ziqian Wang †⊥, Rongguo Xie †‡§⊥, Cong Tinh Bui ∥, Dan Liu ∥, Xiaoxi Ni ‡§, Baowen Li *‡§∥, and John T. L. Thong. '''Thermal Transport in Suspended and Supported Few-Layer Graphene.''' Nano Lett., 2011, 11 (1), pp 113–118, Publication Date (Web): December 13, 2010. [http://pubs.acs.org/doi/abs/10.1021/nl102923q Abstract]
 +
 +
* Myung-Ho Bae, Z. Li, Z. Aksamija, Pierre N Martin, Feng Xiong, Zhun-Yong Ong, Irena Knezevic, Eric Pop. '''Ballistic to diffusive crossover of heat flow in graphene ribbons.''' ature Communications 4 (2013), Article number: 1734. [http://www.nature.com/ncomms/journal/v4/n4/full/ncomms2755.html Abstract]
 +
 +
* J. Chen,  G. Zhang, B. Li. '''Substrate coupling suppresses size dependence of thermal conductivity in supported graphene.''' Nanoscale (2013), 5, 532-536. [http://pubs.rsc.org/en/Content/ArticleLanding/2013/NR/C2NR32949B#!divAbstract Abstract]
 +
 +
* D. L. Nika, S. Ghosh, E. P. Pokatilov, A. A. Balandin. '''Lattice thermal conductivity of graphene flakes: Comparison with bulk graphite.'''  Applied Physics Letters (2009), Volume 94, Issue 20, 203103. [http://scitation.aip.org/content/aip/journal/apl/94/20/10.1063/1.3136860 Abstract]
 +
 +
* M. E. Khosroshahi, L. Ghazanfari, P. Khoshkenar. '''Experimental Validation and Simulation of Fourier and Non-Fourier Heat Transfer Equation during Laser Nano-Phototherapy of Lung Cancer Cells: An in Vitro Assay.''' JMP (2014), Vol.5, No.18, 2125-2141. [http://www.scirp.org/journal/PaperInformation.aspx?PaperID=52746 Abstract]

Версия 19:41, 10 августа 2015

Кафедра ТМ > Научный справочник > Механика > МДС > Публикации по направлениям

На эту страницу помещаются публикации по различным научным направлениям в механике дискретных сред, для которых пока не созано отдельной страницы.

Одномерный кристалл Леннарда-Джонса

  • A. V. Savin, Y. A. Kosevich. Thermal conductivity of molecular chains with asymmetric potentials of pair interactions. Phys. Rev. E (2014), volume 89, issue 3, 032102. (Abstract, pdf)
  • R. Belousov, Paolo De Gregorio, L. Rondoni, L. Conti. Statistical distribution of bonding distances in a unidimensional solid. Physica A (2014), volume 412, 19-31. (Abstract, pdf)

Задача о синусоидальном начальном возмущении температуры

  • O. V. Gendelman, R. Shvartsman, B. Madar, A. V. Savin. Nonstationary heat conduction in one-dimensional models with substrate potential. Phys. Rev. E (2012), volume 85, issue 1, 011105. (Abstract, pdf)
  • A. A. Gusev, S. A. Lurie. Wave-relaxation Duality Of Heat Propagation In Fermi-pasta-ulam Chains. Mod. Phys. Lett. B (2012), volume 26, issue 22, 1250145. Abstract
  • А. А. Ле-Захаров, А. М. Кривцов. Исследование процессов теплопроводности в кристаллах с дефектами методом молекулярной динамики. ДАН (2008), т.420, №1, с.45-49. pdf

Теплопроводность треугольной кристаллической решетки

  • R. H. H. Poetzsch, H. Böttger. Non-diffusive heat transport and chaos in non-linear dielectric lattices. Journal of Physics: Condensed Matter (1998), volume 10, number 5, 943-949. (Abstract, pdf)
  • R. H. H. Poetzsch, H. Böttger. Interplay of disorder and anharmonicity in heat conduction: Molecular-dynamics study. Phys. Rev. B (1994), volume 50, number 21, 15757. (Abstract, pdf)
  • R. D. Mountain, R. A. MacDonald. Thermal conductivity of crystals: A molecular-dynamics study of heat flow in a two-dimensional crystal. Phys. Rev. B (1983), volume 28, issue 6, 3022-3025. (Abstract, pdf)

Гиперболическая теплопроводность

Ниже используется сокращение: МКВ (Максвелла-Каттанео-Вернотта).

  • М.Б. Бабенков. Propagation of harmonic perturbations in a thermoelastic medium with heat relaxation. Journal of Applied Mechanics and Technical Physics (2013), volume 54, issue 2, 277-286. (Abstract, pdf)
  • A. Haji-Sheikh, Filippo de Monte, J. V. Beck. Temperature solutions in thin films using thermal wave Green’s function solution equation. International Journal of Heat and Mass Transfer (2013) volume 62, 78-86. Abstract (Дается вывод функции Грина для уравнения МКВ)
  • O. V. Gendelman, R. Shvartsman, B. Madar, A. V. Savin. Nonstationary heat conduction in one-dimensional models with substrate potential. Phys. Rev. E (2012), volume 85, issue 1, 011105. (Abstract, pdf)
  • A. A. Gusev, S. A. Lurie. Wave-relaxation Duality Of Heat Propagation In Fermi-pasta-ulam Chains. Mod. Phys. Lett. B (2012), volume 26, issue 22, 1250145. Abstract
  • М.Б. Бабенков. Analysis of dispersion relations of a coupled thermoelasticity problem with regard to heat flux relaxation. Journal of Applied Mechanics and Technical Physics (2011), volume 52, issue 6, 941-949. (Abstract, pdf)
  • A. Haji-Sheikh, W. J. Minkowycz, E. M. Sparrow. Certain Anomalies in the Analysis of Hyperbolic Heat Conduction. Journal of Heat Transfer (2002) volume 124, 307-319. Abstract
  • D. S. Chandrasekharaiah. Hyperbolic Thermoelasticity: A Review of Recent Literature. Appl. Mech. Rev (1998), volume 51, issue 12, 705-729. Abstract
  • Е.И. Леванов, Е.Н. Сотский. Некоторые свойства процесса теплопереноса в неподвижной среде с учётом релаксации теплового потока. ИФЖ (1986), т. 50, №6, 1017-1024. English version: E. I. Levanov, E. N. Sotskii. Some properties of the heat-transfer process in a motionless medium, taking account of heat-flux relaxation. Journal of engineering physics (1986), Volume 50, Issue 6, 733-740. Abstract (Приведено относительно простое аналитическое решение уравнения МКВ в бесконечной одномерной области, в центральной точке которой осуществляется постоянный подвод тепла. Решение явно выражено через модифицированную функцию Бесселя.)
  • Н. А. Новиков. Гиперболическое уравнение теплопроводности. Решение прямых и обратных задач для полуограниченного стержня. ИФЖ (1978), т. 35, №4, 734-740. English version: N. A. Novikov. Hyperbolic equation of thermal conductivity. Solution of the direct and inverse problems for a semiinfinite bar. Journal of engineering physics (1978), Volume 35, Issue 4, 1253-1257. Abstract (Получено аналитическое решение в виде интеграла от модифицированной функции Бесселя для уравнения МКВ в полубесконечной одномерной области, на границе которой задана температура. Решение в форме интегральной свертки, где ядро выражено через модифицированную функцию Бесселя.)
  • Y. Wang, Y. Wang, D. Liu, Q. Wang, C. Shu. Asymptotic approach to transient thermal shock problem with variable material properties. International Journal of Engineering Science (?), volume ?, issue ?, ?. pdf

Chains with self-consistent heat reservoirs

  • E. Pereira, H. C. F. Lemos, R. R. Ávila. Ingredients of thermal rectification: The case of classical and quantum self-consistent harmonic chains of oscillators. Phys. Rev. E (2011), volume 84, issue 6, 061135. (Abstract, pdf)
  • F. Bonetto, J. L. Lebowitz, J. Lukkarinen. Fourier's Law for a Harmonic Crystal with Self-Consistent Stochastic Reservoirs. Journal of Statistical Physics (2004), volume 116, issue 1-4, 783-813. (Abstract, pdf)
  • M. Rich, W. M. Visscher. Disordered harmonic chain with self-consistent reservoirs. Phys. Rev. B (1975), volume 11, issue 6, 2164-2170. (Abstract, pdf)
  • M. Bolsterli, M. Rich, W. M. Visscher. Simulation of Nonharmonic Interactions in a Crystal by Self-Consistent Reservoirs. Phys. Rev. A (1970), volume 1, issue 4, 1086-1088. (Abstract, pdf)

Экспериментальное подтверждение аномального переноса тепла в двумерных структурах

  • J. A. Johnson, A. A. Maznev, J. Cuffe, J. K. Eliason, A. J. Minnich, T. Kehoe, C. M. Sotomayor Torres, G. Chen, K. A. Nelson. Direct Measurement of Room-Temperature Nondiffusive Thermal Transport Over Micron Distances in a Silicon Membrane. Phys. Rev. Lett. (2013), volume 110, issue 2, 025901. (Abstract, pdf)
  • S. Liu, X. F. Xu, R. G. Xie, G. Zhang, B. W. Li. Anomalous heat conduction and anomalous diffusion in low dimensional nanoscale systems. The European Physical Journal B (2012), 85:337. Abstract
  • T. S. Tighe, J. M. Worlock, M. L. Roukesb. Direct thermal conductance measurements on suspended monocrystalline nanostructures. Appl. Phys. Lett. (1997), volume 70, issue 20, 2687. pdf
  • А.В. Елецкий, И.М. Искандарова, А.А. Книжник, Д.Н. Красиков. Графен: методы получения и теплофизические свойства. УФН (2011), 181, №3, 233–268. Abstract
  • A. A. Balandin. Thermal Properties of Graphene, Carbon Nanotubes and Nanostructured Carbon Materials. 2011. pdf
  • Hang Zhang, Chengyun Hua, Ding Ding & Austin J. Minnich. Length Dependent Thermal Conductivity Measurements Yield Phonon Mean Free Path Spectra in Nanostructures. Scientific Reports 5, Article number: 9121, 2015. Abstract
  • Xiangfan Xu, Luiz F. C. Pereira, Yu Wang, Jing Wu, Kaiwen Zhang, Xiangming Zhao, Sukang Bae, Cong Tinh Bui, Rongguo Xie, John T. L. Thong, Byung Hee Hong, Kian Ping Loh, Davide Donadio, Baowen Li & Barbaros Özyilmaz. Length-dependent thermal conductivity in suspended single-layer graphene. Nature Communications 5, Article number: 3689 , 2014. Abstract
  • Ziqian Wang †⊥, Rongguo Xie †‡§⊥, Cong Tinh Bui ∥, Dan Liu ∥, Xiaoxi Ni ‡§, Baowen Li *‡§∥, and John T. L. Thong. Thermal Transport in Suspended and Supported Few-Layer Graphene. Nano Lett., 2011, 11 (1), pp 113–118, Publication Date (Web): December 13, 2010. Abstract
  • Myung-Ho Bae, Z. Li, Z. Aksamija, Pierre N Martin, Feng Xiong, Zhun-Yong Ong, Irena Knezevic, Eric Pop. Ballistic to diffusive crossover of heat flow in graphene ribbons. ature Communications 4 (2013), Article number: 1734. Abstract
  • J. Chen, G. Zhang, B. Li. Substrate coupling suppresses size dependence of thermal conductivity in supported graphene. Nanoscale (2013), 5, 532-536. Abstract
  • D. L. Nika, S. Ghosh, E. P. Pokatilov, A. A. Balandin. Lattice thermal conductivity of graphene flakes: Comparison with bulk graphite. Applied Physics Letters (2009), Volume 94, Issue 20, 203103. Abstract
  • M. E. Khosroshahi, L. Ghazanfari, P. Khoshkenar. Experimental Validation and Simulation of Fourier and Non-Fourier Heat Transfer Equation during Laser Nano-Phototherapy of Lung Cancer Cells: An in Vitro Assay. JMP (2014), Vol.5, No.18, 2125-2141. Abstract