郭洋裕

English Profile 个人信息 科学研究 Publications 研究团队 新建主栏目 基本信息 名称 郭洋裕，博士，教授，博导，国家级海外青年人才计划入选者，长期从事传热物理的基础与应用研究，在Phys. Rep., Phys. Rev. Lett./Appl./B, Nat. Commun., Int. J. Heat Mass Transfer, J. Comput. Phys.等国际期刊发表学术论文40余篇。 工作经历 名称 2023.02-至今 哈尔滨工业大学 能源科学与工程学院 教授/博导 2021.10-至今 东京大学 生产技术研究所 客座研究员 2021.10-2022.12 里昂一大-法国国家科学研究中心 光和物质研究所 博士后 2018.09-2021.09 东京大学 生产技术研究所 博士后 2017.09-2018.03 得克萨斯大学奥斯汀分校 机械工程系 访问学者 2014.09 巴塞罗那自治大学 物理系 访问学者 教育经历 名称 2013.09-2018.07 清华大学 动力工程及工程热物理 博士 2009.09-2013.07 哈尔滨工业大学 热能与动力工程 学士 荣誉称号 名称 2022 国家级海外青年人才 2019 日本学术振兴会博士后特别研究员（JSPS Postdoctoral Fellowship） 2018 清华大学优秀博士学位论文 2018 清华大学优秀博士毕业生 研究方向 名称 本课题组主要研究介观热物理，即介于原子/分子尺度和宏观尺度之间的热物理问题。课题组的研究主要面向半导体集成电路（芯片）技术、先进加工制造技术、光子与微纳电子技术、能源高效利用与“双碳”目标等国家重点攻关与世界前沿领域，旨在解决其中的共性基础热物理问题，拓展热科学的知识边界，促进社会科学技术的进步与人类生活水平的提高。目前采用的研究方法主要为理论和模拟，包括：宏观理论模型、介观输运理论、原子模拟方法（非平衡格林函数方法和分子动力学模拟）等。课题组在宏观、介观和微观三个层次均发展了原创的理论方法和计算模型，具有较好的研究基础。此外，课题组正在发展微纳尺度与界面热输运的实验测量技术与平台。主要研究方向包括但不限于： 1. 微纳尺度与界面热输运 主要面向微纳电子器件和芯片热管理与热设计难题，目前主要侧重研究：（1）固态材料中的高效导热机制：声子水动力学热输运；（2）固态界面热输运。 参考文献： [1] Yangyu Guo et al. Physical Review B, 104: 075450, 2021. [2] Xin Huang#, Yangyu Guo# et al. Nature Communications, 14: 2044, 2023. [3] Yangyu Guo et al. Physical Review B, 103: 174306, 2021. 2. 极端情形下微观热载子的耦合能量输运与转换 主要面向微纳米尺度热电能量转换以及热光伏发电等工程应用，目前主要侧重研究：（1）半导体/金属异质微纳结构中的热电能量输运与转换；（2）极端近场辐射热输运：导热与热辐射的耦合与过渡。 参考文献： [1] Yangyu Guo et al. APL Materials, 9: 091104, 2021. [2] Yangyu Guo et al. Physical Review B, 106: 085403, 2022. [3] Yangyu Guo et al. Physical Review B, 108: 085434, 2023. 3. 传热理论与模型发展 主要面向微纳米科技中的工程热设计仿真，传统的傅里叶导热定律和商业软件将失效，我们的工作旨在发展和应用高效的非傅里叶导热宏观模型与计算方法。 参考文献： [1] Yangyu Guo, Moran Wang. Physics Reports, 595: 1-44, 2015. [2] Yangyu Guo, Moran Wang. Physical Review B, 97: 035421, 2018. [3] Yangyu Guo, David Jou, Moran Wang. Physical Review B, 98: 104304, 2018. 过往研究关键贡献 系统地发展了微纳尺度非傅里叶导热的宏观热输运模型，尤其是建立了其微观统计物理基础。 开发了微纳米材料中声子水动力学传热的高效介观数值方法，并和实验课题组合作，将固态材料中声子流动的观测窗口温度纪录提高了一个数量级。 澄清了非平衡格林函数(NEGF)方法中声子-声子散射的理论公式，并系统地发展了三维声子NEGF理论与并行计算方法，使得大尺度量子热输运模拟成为现实。 Representative Publications 名称 [1]. Yangyu Guo, Moran Wang. Phonon hydrodynamics and its applications in nanoscale heat transport, Physics Reports, 595: 1-44, 2015. [2]. Yangyu Guo, Moran Wang. Lattice Boltzmann modeling of phonon transport, Journal of Computational Physics, 315: 1-15, 2016. [3]. Yangyu Guo, Moran Wang. Heat transport in two-dimensional materials by directly solving the phonon Boltzmann equation under Callaway's dual relaxation model, Physical Review B, 96: 134312, 2017. [4]. Yangyu Guo, Moran Wang. Phonon hydrodynamics for nanoscale heat transport at ordinary temperatures, Physical Review B, 97: 035421, 2018. [5]. Yangyu Guo, Marc Bescond, Zhongwei Zhang, Mathieu Luisier, Masahiro Nomura, Sebastian Volz. Quantum mechanical modeling of anharmonic phonon-phonon scattering in nanostructures, Physical Review B, 102: 195412, 2020. [6]. Yangyu Guo, Zhongwei Zhang, Marc Bescond, Shiyun Xiong, Masahiro Nomura, Sebastian Volz. Anharmonic phonon-phonon scattering at the interface between two solids by non-equilibrium Green's function formalism, Physical Review B, 103: 174306, 2021. [7]. Yangyu Guo, Mauricio Gómez Viloria, Riccardo Messina, Philippe Ben-Abdallah, Samy Merabia. Atomistic modeling of extreme near-field heat transport across nanogaps between two polar dielectric materials, Physical Review B, 108: 085434, 2023. Refereed Journal Publications 名称 (#: equal contribution; *: corresponding author) 2023 48. Wei Zhang, Yangyu Guo, Shi-Yun Xiong, and Hong-Liang Yi. Phonon ballistic transport and Anderson localization in Si1-xGex alloyed nanowires, Physical Review B, 108: 125436, 2023. 47. Yangyu Guo, Mauricio Gómez Viloria, Riccardo Messina, Philippe Ben-Abdallah, Samy Merabia. Atomistic modeling of extreme near-field heat transport across nanogaps between two polar dielectric materials, Physical Review B, 108: 085434, 2023. 46. Xin Wu, Xin Huang, Lei Yang, Zhongwei Zhang, Yangyu Guo, Sebastian Volz, Qiang Han, Masahiro Nomura. Suppressed thermal transport in mathematically inspired 2D heterosystems, Carbon, 213:118264, 2023. 45. Yangyu Guo, Xiao-Ping Luo, Zhongwei Zhang, Samy Merabia, Masahiro Nomura, Sebastian Volz. Basal-plane heat transport in graphite thin films, Physical Review B, 107: 195430, 2023. 44. Zhongwei Zhang, Yangyu Guo, Marc Bescond, Masahiro Nomura, Sebastian Volz, Jie Chen. Assessing phonon coherence using spectroscopy, Physical Review B, 107: 155426, 2023. 43. Xin Huang#, Yangyu Guo#, Yunhui Wu, Satoru Masubuchi, Kenji Watanabe, Takashi Taniguchi, Zhongwei Zhang, Sebastian Volz, Tomoki Machida, Masahiro Nomura. Observation of phonon Poiseuille flow in isotopically purified graphite ribbons, Nature Communications, 14: 2044, 2023. 42. Mauricio Gómez Viloria, Yangyu Guo, Samy Merabia, Philippe Ben-Abdallah, Riccardo Messina. Role of the Nottingham effect in heat transfer in the extreme near-field regime, Physical Review B, 107: 125414, 2023. 2022 41. Xin Huang, Yangyu Guo, Sebastian Volz, Masahiro Nomura. Mapping phonon hydrodynamic strength in micrometer-scale graphite structures, Applied Physics Express, 15: 105001, 2022. 40. Yangyu Guo, Christophe Adessi, Manuel Cobian, Samy Merabia. Atomistic simulation of phonon heat transport across metallic vacuum nanogaps, Physical Review B, 106: 085403, 2022. 39. Bin Liu, Yangyu Guo, Vladimir I. Khvesyuk, Alexander A. Barinov, Moran Wang. Heat conduction of multilayer nanostructures with consideration of coherent and incoherent phonon transport, Nano Research, 15(10): 9492-9497, 2022. 38. Zhongwei Zhang, Yangyu Guo, Marc Bescond, Jie Chen, Masahiro Nomura, Sebastian Volz. How coherence is governing diffuson heat transfer in amorphous solids, npj Computational Materials, 8: 1-8, 2022. 37. Masahiro Nomura, Roman Anufriev, Zhongwei Zhang, Jeremie Maire, Yangyu Guo, Ryoto Yanagisawa, Sebastian Volz. Review of thermal transport in semiconductor phononic crystals, Materials Today Physics, 22: 100613, 2022. 36. Zhongwei Zhang, Yangyu Guo, Marc Bescond, Jie Chen, Masahiro Nomura, Sebastian Volz. Heat conduction theory including phonon coherence, Physical Review Letters, 128: 015901, 2022. 2021 35. Yangyu Guo, Saeko Tachikawa, Sebastian Volz, Masahiro Nomura, Jose Ordonez-Miranda. Quantum of thermal conductance of nanofilms due to surface-phonon polaritons, Physical Review B, 104: L201407, 2021. 34. Keqiang Li, Yajuan Cheng, Hongying Wang, Yangyu Guo, Zhongwei Zhang, Marc Bescond, Masahiro Nomura, Sebastian Volz, Xiaohong Zhang, Shiyun Xiong. Phonon resonant effect in silicon membranes with different crystallographic orientations, International Journal of Heat and Mass Transfer, 183: 122144, 2022. 33. Shuo Jin, Zhongwei Zhang, Yangyu Guo, Jie Chen, Masahiro Nomura, Sebastian Volz. Optimization of interfacial thermal transport in Si/Ge heterostructure driven by machine learning, International Journal of Heat and Mass Transfer, 182: 122014, 2022. 32. Jose Ordonez-Miranda, Yangyu Guo, Juan J. Alvarado-Gil, Sebastian Volz, Masahiro Nomura. Thermal wave diode. Physical Review Applied, 16: L041002, 2021. 31. Yangyu Guo, Masahiro Nomura, Sebastian Volz, Jose Ordonez-Miranda. Heat transport driven by the coupling of polaritons and phonons along a polar nanowire. Energies, 14: 5110, 2021. 30. Yangyu Guo, Zhongwei Zhang, Marc Bescond, Shiyun Xiong, Moran Wang, Masahiro Nomura, Sebastian Volz. Size effect on phonon hydrodynamics in graphite microstructures and nanostructures, Physical Review B, 104: 075450, 2021. 29. Yangyu Guo, Marc Bescond, Zhongwei Zhang, Shiyun Xiong, Masahiro Nomura, Sebastian Volz. Thermal conductivity minimum of graded superlattices due to phonon localization, APL Materials, 9: 091104, 2021. 28. Zhongwei Zhang, Yangyu Guo, Marc Bescond, Jie Chen, Masahiro Nomura, Sebastian Volz. Thermal self-synchronization of nano-objects, Journal of Applied Physics, 130: 084301, 2021. 27. Zhongwei Zhang, Yangyu Guo, Marc Bescond, Jie Chen, Masahiro Nomura, Sebastian Volz. Coherent thermal transport in nano-phononic crystals: an overview, APL Materials, 9: 081102, 2021. 26. Yangyu Guo, Moran Wang. Lattice Boltzmann scheme for hydrodynamic equation of phonon transport, International Journal of Thermal Science, 171: 107178, 2022. 25. Hongying Wang, Yajuan Cheng, Zheyong Fan, Yangyu Guo, Zhongwei Zhang, Marc Bescond, Masahiro Nomura, Tapio Ala-Nisshila, Sebastian Volz, Shiyun Xiong. Anomalous thermal conductivity enhancement in low dimensional resonant nanostructures due to imperfections, Nanoscale, 13: 10010, 2021. 24. Yangyu Guo, Zhongwei Zhang, Marc Bescond, Shiyun Xiong, Masahiro Nomura, Sebastian Volz. Anharmonic phonon-phonon scattering at the interface between two solids by non-equilibrium Green's function formalism, Physical Review B, 103: 174306, 2021. 23. Zhongwei Zhang, Yangyu Guo, Marc Bescond, Jie Chen, Masahiro Nomura, Sebastian Volz. Generalized decay law for particlelike and wavelike thermal phonons, Physical Review B, 103: 184307, 2021. 22. Yangyu Guo, Zhongwei Zhang, Masahiro Nomura, Sebastian Volz, Moran Wang. Phonon vortex dynamics in graphene ribbon by solving Boltzmann transport equation with ab initio scattering rates, International Journal of Heat and Mass Transfer, 169: 120981, 2021. 2020 21. Zhongwei Zhang, Yulou Ouyang, Yangyu Guo, Tsuneyoshi Nakayama, Masahiro Nomura, Sebastian Volz, Jie Chen. Hydrodynamic phonon transport in bulk crystalline polymers, Physical Review B, 102: 195302, 2020. 20. Yangyu Guo, Marc Bescond, Zhongwei Zhang, Mathieu Luisier, Masahiro Nomura, Sebastian Volz. Quantum mechanical modeling of anharmonic phonon-phonon scattering in nanostructures, Physical Review B, 102: 195412, 2020. 2019 19. Xiao-Ping Luo#, Yangyu Guo#, Moran Wang, Hong-Liang Yi. Direct simulation of second sound in graphene by solving the phonon Boltzmann equation via a multiscale scheme, Physical Review B, 100: 155401, 2019. 18. Wuli Miao, Yangyu Guo, Xin Ran, Moran Wang. Deviational Monte Carlo scheme for thermal and electrical transport in metal nanostructures, Physical Review B, 99: 205433, 2019. 17. Yangyu Guo#, Xinting He#, Wenzheng Huang, Moran Wang. Microstructure effects on effective gas diffusion coefficient of nanoporous materials, Transport in Porous media, 126: 431-453, 2019. 2018 and before 16. Yangyu Guo, David Jou, Moran Wang. Nonequilibrium thermodynamics of phonon hydrodynamic model for nanoscale heat transport, Physical Review B, 98: 104304, 2018. 15. Xin Ran, Yangyu Guo, Zhiyu Hu, Moran Wang. Interfacial phonon transport through Si/Ge multilayer film using Monte Carlo scheme with spectral transmissivity, Frontiers in Energy Research, 6: 28, 2018. 14. Xin Ran, Yangyu Guo, Moran Wang. Interfacial phonon transport with frequency-dependent transmissivity by Monte Carlo simulation, International Journal of Heat and Mass Transfer, 123: 616-628, 2018. 13. Yangyu Guo, Moran Wang. Phonon hydrodynamics for nanoscale heat transport at ordinary temperatures, Physical Review B, 97: 035421, 2018. 12. Yangyu Guo, Moran Wang. Heat transport in two-dimensional materials by directly solving the phonon Boltzmann equation under Callaway's dual relaxation model, Physical Review B, 96: 134312, 2017. 11. Yangyu Guo, Ziyan Wang, Moran Wang. Thermodynamic extremum principles for nonequilibrium stationary state in heat conduction, Journal of Heat Transfer, 139: 071303, 2017. 10. Xinting He#, Yangyu Guo#, Min Li, Ning Pan, Moran Wang. Effective gas diffusion coefficient in fibrous materials by mesoscopic modeling, International Journal of Heat and Mass Transfer, 107: 736-746, 2017. 9. Yangyu Guo, David Jou, Moran Wang. Macroscopic heat transport equations and heat waves in nonequilibrium states, Physica D, 342: 24-31, 2017. 8. Yangyu Guo, Moran Wang. Thermodynamic analysis of gas flow and heat transfer in microchannels, International Journal of Heat and Mass Transfer, 103: 773-782, 2016. 7. Yangyu Guo, Moran Wang. Lattice Boltzmann modeling of phonon transport, Journal of Computational Physics, 315: 1-15, 2016. 6. Yangyu Guo, Moran Wang. Thermodynamic framework for a generalized heat transport equation, Communications in Applied and Industrial Mathematics, 7(2): 167-176, 2016. 5. Ziyan Wang, Yangyu Guo, Moran Wang. Permeability of high-Kn real gas flow in shale and production prediction by pore-scale modeling, Journal of Natural Gas Science and Engineering, 28: 328-337, 2016. 4. Haochun Zhang, Yangyu Guo, Haiyan Yu, Limin Yan, Yu Ji, Yao Li. Estimation of Loss Coefficient for Conduit Bends with Circular Cross Section by a Second Law Approach, Heat Transfer Research, 47(3): 203-217, 2016. 3. Yangyu Guo, David Jou, Moran Wang. Understanding of flux-limited behaviors of heat transport in nonlinear regime, Physics Letter A, 380: 452–457, 2016. 2. Yangyu Guo, Moran Wang. Phonon hydrodynamics and its applications in nanoscale heat transport, Physics Reports, 595: 1-44, 2015. 1. Haochun Zhang, Yangyu Guo, Yan Jin, Yao Li. An entropy production method to investigate the accuracy and stability of numerical simulation of one-dimensional heat transfer, Heat Transfer Research, 43(7): 669-693, 2012. 招生信息 名称 本课题组每年招收博士生1~2名，硕士生2名，博士后不限，欢迎具有能源动力/机械/物理/材料等背景的有志于热科学基础与应用研究的青年学子加入团队！欢迎对科技创新或科学研究感兴趣的本科生与我联系！ Email: yyguo@hit.edu.cn 我们的团队 名称 博士生 - 徐金园（2023.09 - ） 2023年06月硕士毕业于湖南大学。 研究方向：固态界面热输运的多尺度建模 - 刘婉莹（2023.09 - ） 2020年07月硕士毕业于哈尔滨工业大学。 研究方向：声子水动力学传热的介观模拟 硕士生 - 尹政 （2023.09 - ） 2023年06月本科毕业于华南理工大学 研究方向：量子热输运模拟 - 吕善鹏 （2023.09 - ） 2023年06月本科毕业于吉林大学。 研究方向：声子极化激元热输运 - 孙毓 （2023.09 -）（与易红亮教授合作指导） 2023年06月本科毕业于大连理工大学 研究方向：非傅里叶导热的宏观建模 本科生 - 陈煜凡 （2023.09 - ） 毕设题目：半导体薄膜热导率理论计算与分析 - 李东旭 （2023.09 - ）（与易红亮教授合作指导） 毕设题目：基于声子玻尔兹曼方程求解器的纳米结构热导率计算 博士后 国内和国际合作 名称 哈尔滨工业大学 易红亮教授课题组 东京大学 野村研究室 清华大学 王沫然教授课题组 东京大学 LIMMS研究中心 Sebastian Volz研究员 里昂一大-法国国家科学研究中心 Samy Merabia研究员 同济大学 物理科学与工程学院 张忠卫助理教授 马赛大学-法国国家科学研究中心 Marc Bescond研究员 巴黎萨克雷大学 Philippe Ben-Abdallah和Riccardo Messina研究员 苏黎世联邦理工学院 Mathieu Luisier教授课题组 Basic Information 名称 Dr. Yangyu Guo is a Professor & Doctoral Supervisor of Thermophysics in School of Energy Science and Engineering at Harbin Institute of Technology. He is mainly working on heat transfer physics and its applications, and has published over 40 refereed journal articles in Phys. Rev. Lett./Appl./B, Phys. Rep., Nat. Commun., Int. J. Heat Mass Transfer, and so on. Working Experience 名称 2023. 02 ~ now, Professor, School of Energy Science and Engineering, Harbin Institute of Technology, China 2021. 10 ~ 2023. 08, Associate Research Fellow, Institute of Industrial Science, The University of Tokyo, Japan 2021. 10 ~ 2022. 12, Postdoctoral Researcher, Institut Lumière Matière, Université Claude Bernard Lyon 1-CNRS, France 2018. 09 ~ 2021. 09, Postdoctoral Researcher, Institute of Industrial Science, The University of Tokyo, Japan 2017. 09 ~ 2018. 03, Visiting Student , Department of Mechanical Engineering, The University of Texas at Austin, USA 2014.09, Visiting Student, Department of Physics, Universitat Autònoma de Barcelona, Spain Education 名称 2013. 08 ~ 2018. 07, Ph. D, Engineering Thermophysics, Tsinghua University, China. 2009. 08 ~ 2013. 07, Bachelor of Science, Thermal Engineering, Harbin Institute of Technology, China. Research Interests 名称 We are mainly working on mesoscopic thermophysics, i.e. the thermophysical problems between atomistic/molecular scale and continuum scale. The aim of our research includes twofold: (1) contribute to fundamental understanding and new knowledge of thermal science; (2) promote the engineering applications of heat transfer, including energy harvesting and utilization, thermal management of nanoelectronics, advanced machining, and so on. Currently our research is mainly theoretical, employing macroscopic, mesoscopic and atomistic approaches. Also we are developing experimental metrology for heat transport at nanoscale and interface. Our research directions include but not limited to the following aspects: (1) Heat transport at micro/nanoscale and interface (2) Energy transport and conversion of microscopic heat carriers at extreme conditions (3) Heat transfer theories and models We are hiring 1~2 PhD students/year, 2 master students/year, and postdocs, with background in thermal & power engineering, energy & environmental engineering, mechanical engineering, physics, and so on. Honors 名称 2022, National Young Talent Program, NSFC 2019, JSPS Postdoctoral Fellowship, JSPS 2018, Distinguished Doctoral Thesis, Tsinghua University 2018, Distinguished Doctoral Graduate, Tsinghua University