导师介绍

导师姓名

伍林

导师性别

男

职务职称

教授

所在院系

杏运娱乐官网

一级学科

机械工程

二级学科

机械设计及理论；机械制造及其自动化

研究方向

纳米摩擦学，微机电系统（MEMS）💝，微纳米加工技术和器件❔，非线性力学, 传热学及传质

联系电话

021-60877239

电子邮箱

linwu@sit.edu.cn, wulin05@yahoo.com

个人简介

杏运娱乐官网教授,主要从事微纳米尺度流体力学及传热,微纳米气液润滑理论,计算机硬盘头盘界面动力学,微纳米加工技术, 微机电系统(MEMS)器件,大规模数值计算等研究.实验室拥有一流的高性能并行计算平台,及成套微纳米加工设备.

学习与工作经历

学习经历： 工学学士（北京理工大学），硕士 MS （Arizona State University）👂🏽，博士 PhD（University of California at Berkeley）, 博士后 PostDoc（Princeton University）

主要工作经历：教授（上海应用技术学院）🧖🏿，Visiting Professor （UC San Diego）， 教授（中国科学技术大学）🧑🏻‍🦽‍➡️， Assistant Professor （University of Nebraska）

科研工作与成果

Book Chapters

[2] L. Wu and S. Y. Chou, “Dynamic Modeling and Scaling of Nanostructure Formation in the Lithographically Induced Self-Assembly and Self-Construction," Applied Physics Letters, Vol. 82, pp.3200-3202 (2003), in SPIE Milestone Series: Selected Papers on Nanotechnology-Theory and Modeling, ed. F. Wang and A. Lakhtakia, SPIE press, Washington USA (2006).

[1] X. Lei, L. Wu, P. Deshpande, Z. Yu, W. Wu, H. Ge, S. Y. Chou, "100 nm Period Gratings Produced by Lithographically Induced Self-Construction," Nanotechnology, Vol. 14, pp.786-790 (2003), in SPIE Milestone Series: Selected Papers on Nanotechnology-Theory and Modeling, ed. F. Wang and A. Lakhtakia, SPIE press, Washington USA (2006).

Journal Publications

    [27] L. Wu, “Mass Transfer Induced Slip Effect on Viscous Gas Flows above a Shrinking/Stretching Sheet，” International Journal of Heat and Mass Transfer, Vol. 93(2), pp.17-22 (2016).

[26] L. Wu, “A Slip Model for Rarefied Gas Flows above a Moving Surface with Mass Transfer👼🏿，” Journal of Applied Physics, Vol. 116，054503 (2014).

[25] L. Wu, and F. E. Talke,“Modeling Laser Induced Lubricant Depletion in Heat-Assisted-Magnetic Recording Systems Using a Multiple-Layered Disk Structure,” Microsystem Technologies， 17, pp.1109-1114 (2011).

[24] L. Wu,” Lubricant Distribution and its Effect on Slider Air Bearing Performance over Bit Patterned Media of Disk Drives,” Journal of Applied Physics, Vol. 109, 074511 (2011).

[23] Michael D. Furtaw, Dong Lin, Lin Wu, and Jon P. Anderson, “Near-infrared metal enhanced fluorescence using a liquid-liquid droplet micromixer in a disposable poly(methyl methacrylate) microchip,” Plasmonics, Vol. 4, pp.273-284 (2009).

[22] L. Wu,”A Slip Model for Rarefied Gas Flows at Arbitrary Knudsen Number,” Applied Physics Letters, Vol. 93, 253103 (2008).

[21] B. Cui, L. Wu and S. Y. Chou, “Fabrication of high aspect ratio metal nanotips by nanosecond pulse laser melting,” Nanotechnology Vol. 19 (34): Art. No. 345303 (2008).

[20] L. Wu, “A model for liquid transfer between two approaching gas bearing surfaces through coupled evaporation-condensation and migration dynamics,” Journal of Applied Physics, Vol. 104, 014503 (2008).

[19] L. Wu, “Modeling and Simulation of the Lubricant Depletion Process Induced by Laser Heating in Heat-Assisted Magnetic Recording System,” Nanotechnology Vol. 18 (21): Art. No. 215702 (2007).

[18] L. Wu, “Thermal Effects on Liquid Film Dynamics in Spin Coating,” Sensors & Actuators A: Physical Vol. 134, pp.140-145 (2007).

[17] L. Wu, “Modeling and Simulation of the Interaction between Lubricant Droplets on the Slider Surface and Air Flow within the Head/Disk Interface of Disk Drives,” IEEE Transactions on Magnetics, Vol. 42, pp.2480-2482 (2006).

[16] L. Wu, “Lubricant Dynamics under Sliding Condition in Disk Drives,” Journal of Applied Physics Vol. 100, 024505 (2006).

[15] L. Wu, “Spin Coating of Thin Liquid Films on an Axisymmetrically Heated Disk,” Physics of Fluids Vol. 18, 063602 (2006).

[14] L. Wu, “A 2-D Model for the Interaction between Lubricant Droplet on the Slider Surface and Air Flow within the Head/Disk Interface of Disk Drives,” Journal of Applied Physics, Vol. 99, 08N101 (2006).

[13] L. Wu, “Shear Stress Reduction by a Second Layer of Slippage Liquid for Contact Recording,” Tribology International, Vol. 39, pp. 261-265 (2006).

[12] L. Wu, “Surface Wave Propagation of Thin Liquid Films on a Rotating and Non-Rotating Disk”, Physical Review E, Vol. 72, Art. No. 016313 (2005).

[11] L. Wu and S. Y. Chou, "Electrohydrodynamic Instability of a Thin Film of Viscoelastic Polymer Underneath a Lithographically Manufactured Mask," Journal of Non-Newtonian Fluid Mechanics, Vol. 125 (2-3), pp. 91-99 (2005).

[10] X. Lei, L. Wu, P. Deshpande, Z. Yu, W. Wu, H. Ge, S. Y. Chou, "100 nm Period Gratings Produced by Lithographically Induced Self-Construction," Nanotechnology, Vol. 14, pp.786-790 (2003).

[9] L. Wu and S. Y. Chou, “Dynamic Modeling and Scaling of Nanostructure Formation in the Lithographically Induced Self-Assembly and Self-Construction," Applied Physics Letters, Vol. 82, pp.3200-3202 (2003).

[8] L. Wu and D. B. Bogy, "New First and Second Order Slip Models for the Compressible Reynolds Equation," ASME Journal of Tribology, Vol. 125, pp.558-561 (2003).

[7] L. Wu and K. P. Chen, "Surface Energy Variation Effect on the Thermocapillary Instability of a Thin Liquid Layer Heated from the Side," ASME Journal of Heat Transfer, Vol. 125, pp.63-69 (2003).

[6] L. Wu and D. B. Bogy, "Effect of the Intermolecular Forces on the Flying Attitude of Sub-5 NM Flying Height Air Bearing Sliders in Hard Disk Drives," ASME Journal of Tribology, Vol. 124, pp.562-567 (2002).

[5] L. Wu and D. B. Bogy, "a Generalized Compressible Reynolds Lubrication Equation with Bounded Contact Pressure," Physics of Fluids, Vol. 13, pp.2237-2244 (2001).

[4] L. Wu and D. B. Bogy, "Numerical Simulation of the Slider Air Bearing Problem of Hard Disk Drives by Two Multi-Dimensional Upwind Residual Distribution Schemes over Unstructured Triangular Meshes," Journal of Computational Physics, Vol. 172, pp.640-657 (2001).

[3] L. Wu and D. B. Bogy, "Use of an Upwind Finite Volume Method to Solve the Air Bearing Problem of Hard Disk Drives," Computational Mechanics, Vol. 26, pp. 592-600 (2000).

[2] L. Wu and D. B. Bogy, "Unstructured Adaptive Triangular Mesh Generation Techniques and Finite Volume Schemes for Slider Air Bearing Problems in Hard Disk Drives," ASME Journal of Tribology, Vol.122, pp.761-770 (2000).

[1] L. Wu and D. B. Bogy, "Unstructured Triangular Mesh Generation Techniques and a Finite Volume Numerical Scheme for Slider Air Bearing Simulation with Complex Shaped Rails," IEEE Transactions on Magnetics, Vol. 35 N5, pp.2421-2423 (1999).

Refereed conference publications

[10] L. Wu, “Lubricant Redistribution on a Patterned Media Disk Surface under Sliding Condition,”20th ASME Annual Conference on Information Storage & Processing Systems, June 14-15, Santa Clara, CA, USA (2010).

[9] L. Wu, and F. K. Talke, “Modeling laser induced lubricant depletion in heat-Assisted-magnetic recording systems using a multilayered disk structure,” 20th ASME Annual Conference on Information Storage & Processing Systems, June 14-15, Santa Clara, CA, USA (2010).

[8] L. Wu, “Laser heating induced lubricant depletion in heat assisted magnetic recording system,” Digest of 10^th joint MMM/Intermag Conference, January 7-11, Baltimore, Maryland, USA (2007).

[7] L. Wu, “Modeling and Simulation of the Interaction between 3-D Lubricant Droplets on the Slider Surface and Air Flow within the Head/Disk Interface of Disk Drives,” Digest of IEEE International Magnetic Conference, May 8-12, San Diego, California, USA(2006).

[6] L. Wu, “The Interaction between Lubricant Droplet and Air Flow within the Head/Disk Interface of Disk Drives,” Digest of 50^th Magnetism and Magnetic Materials Conference, October 30-November 3, San Jose, California, USA (2005).

[5] L. Wu, “Thermocapillarity and Thermoviscosity Effects on the Spin Coating of Wetting Liquids Above an Axisymmetrically Heated Disk,” Proc. 2005 Int. Mech. Eng. Congress & Exp, IMECE2005-82162, Orlando, Florida, USA (2005).

[4] L. Wu, “Surface Wave Propagation of an Ultral Thin Liquid Film on a Rotating Disk,” Proc. 2004 Int. Mech. Eng. Congress & Exp, IMECE2004-61409, Anaheim, California, USA (2004).

[3] L. Wu and S. Y. Chou, “Modeling and Simulation of Polymer Flow During Nanoimprinting," Digest of the 47^th International Conference on Electron, Ion, Photo Beam Technology and Nanofabrication, Tampa, Florida, USA (2003).

[2] D. B. Bogy and L. Wu, "Air Bearing Models and Solutions for Sub-5nm Spacings," Invited paper at the ASME/MSC 2001 Symposium on Nanotribology and Nanoengineering for 1 Tbit/in².

[1] D. B. Bogy and L. Wu, Q.H. Zeng, and H, Zhu, "Air Bearing Designs for 100 GBIT/IN²," Invited paper at the TRIB-Vol. 9, Proceedings of the Symposium on Interface Technology Towards 100 Gbit/in², ASME 1999, p11-16.

Other conference presentations

[3] L. Wu, “Viscoelastic Effect on the Spinodal Dewetting of a Thin Liquid Film,” presented at the 2005 American Physical Society Division of Fluid Dynamics 58th Annual Meeting, November 20-22, Chicago, Illinois, USA (2005).

[2] L. Wu, “Lubricant depletion due to slider-disk interaction in disk drive”, Presented at ASME 15th Annual Conference on Information Storage and Processing, Santa Clara University, Santa Clara, California June 28-29, 2005

[1] L. Wu, “Lubricant Roughness Evolution on a Rotating Disk,” Presented at the 4^th international conference on the tribology of information storage devices, Monterey, California, USA (2003)

主要研究方向

纳米摩擦学👰🏻‍♂️，微机电系统（MEMS），微纳米加工技术和器件，非线性力学,传热及传质