3 edition of Laser-material interactions at micro/nanoscales found in the catalog.
Laser-material interactions at micro/nanoscales
Symposium TT, "Laser-Material Interactions at Micro/Nanoscales" (2011 San Francisco, Calif.)
|Statement||editors, Yongfeng Lu ... [et al.].|
|Series||Materials Research Society symposium proceedings -- v. 1365, Materials Research Society symposia proceedings -- v. 1365.|
|Contributions||Lu, Yongfeng, Materials Research Society. Meeting|
|LC Classifications||TA1673 .S967 2011|
|The Physical Object|
|Pagination||ix, 139 p. :|
|Number of Pages||139|
|LC Control Number||2011276271|
In this study, an optically-pumped solid-state laser with a wavelength of nm irradiates a thin nickel foil to induce a local temperature rise, thereby allowing the direct writing of graphene patterns about ∼10 μm in width with high growth rate on precisely controlled : J.B. Park, W. Xiong, Z.Q. Xie, M. Mitchell, Y. Gao, M. Qian, Y.F. Lu. Symposium TT—Laser-Material Interactions at Micro/Nanoscales Program & Abstracts Symposium UU—Crystalline Nanoporous Framework MaterialsApplications and Technological Feasibility.
1. Introduction 2. Fundamentals of laser processing 3. Laser-material interactions 4. Laser processing technologies 5. Micromachining of single-crystal diamond 6. Micromachining of microstructures on sapphire 7. Laser healing of microcracks in glass 8. Laser recovery of silicon single crystals 9. Surface modification of silicon carbide Ultrafast laser material processing has received significant attention due to a growing need for the fabrication of miniaturized devices at micro- and nanoscales. The traditional phenomenological laws, such as Fourier's law of heat conduction, are challenged in the microscale regime and a hyperbolic or dual phase lag model should be employed. During ultrafast laser interaction with metal, the.
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This volume includes a collection of papers presented in Symposium TT: Laser-Material Interactions at Micro/Nanoscales, at the Spring Materials Research Society Laser-material interactions at micro/nanoscales book held April in San Francisco, California. Laser-material interactions are of fundamental importance in wide range of materials-related research and technology.
Laser-material interactions are of fundamental importance in a wide range of materials-related research and areas of technology, including green energy, photonics, electronics, environmental studies, biomedical imaging, medical treatment, and optical spectroscopy.
Micro and Nanoscale Laser Processing of Hard Brittle Materials examines general laser-material interactions within this type of material, focusing on the nanoprocessing technologies that these phenomena have given rise to. Sections cover laser machining, healing, recovery, sintering, surface modification, texturing and microstructuring.
ISBN: OCLC Number: Notes: "Symposium TT: Laser-material interactions at micro/nanoscales, at the Spring Materials Research Society meeting held April in San Francisco, California"--Page ix.
Closed-loop control of a laser assisted carbon nanotube growth process for interconnects in flexible electronics Yoeri van de Burgt; Laser welding of transparent high performance polymer foils by using silver nanoparticles as absorption layer Matthias Neuber; Part III.
Laser-Material Interactions at Micro/Nanoscales: * NonlinearMicro-processing of Silicon byUltrafast Fiber Laser at nm 31 Yoshiro Ito, Rie Tanabe, andKozo Tada Ultrafast Laser Processing ofHybrid Micro- and Nano-structures in Silicate Glasses 43 PavelMardilovich, Luke Fletcher, Neil Troy, Lihmei Yang, HuanHuang,SubhashRisbud, and Denise M.
Krol Ultra-fast Photoluminescence in Fused Silica. Request PDF | On May 2,Marta Castillejo and others published Laser Material Interactions for Micro- and Nano- Applications | Find, read and cite all the research you need on ResearchGate.
Femtosecond (fs) lasers, with short pulse duration compared with many physical/chemical characteristic times and extremely high irradiance, lead to a new area of ultrafast science and technology, which introduce new phenomena, requiring new experimental and theoretical understanding .File Size: KB.
The advent of new scanning probe microscopy (SPM) techniques (starting with the invention of the scanning tunneling microscope in ) to measure surface topography, adhesion, friction, wear, lubricant-fIlm thickness, mechanical properties all on a micro to nanometer scale, and to image lubricant molecules and the availability of.
In laser machining, the fundamental interaction that leads to the removal of material can be athermal (ablation) or thermal (melting and vaporization) and depends primarily on the nature of the laser– material interaction, which itself is a function of the laser wavelength and laser pulse duration.
Volume (Symposium TT – Laser-Material Interactions at Micro/Nanoscales)mrsstt What Can Lasers Do in the Nano-Fabrication of Carbon Nanotube Based Devices?Author: Yun Shen Zhou, Wei Xiong, Masoud Mahjouri-Samani, Yang Gao, Matt Mitchell, Yong Feng Lu.
The word tribology was fIrst reported in a landmark report by P. Jost in (Lubrication (Tribology)--A Report on the Present Position and Industry's Needs, Department of Education and Science, HMSO, London).
Tribology is the science and technology of two interacting surfaces in relative motion. Experimental research on laser-material interaction. Book. Full-text available It is found that the laser process is capable of making fine micro patterns on SnO2 thin films that have high.
Micro and Nano Mechanical Testing of Materials and Devices is a valuable resource for engineers and researchers working in the area of mechanical characterization of advanced materials. Keywords Nanoindentation Nanotube advanced materials carbon nanotubes composite deformation electromechanical interaction material metal nanostructure size.
Ultrafast laser material processing has received significant attention due to a growing need for the fabrication of miniaturized devices at micro- and nanoscales. The traditional phenomenological laws, such as Fourier's law of heat conduction, are challenged in the microscale regime and a hyperbolic or dual phase lag model should be employed.
The use of lasers for direct-write applications in micro-manufacturing takes advantage of the broad range of processes resulting from the laser/material interaction phenomena. These processes, which lead to changes in phase, structure, chemistry or morphology, enable the fabrication of 2D and 3D structures with micro- and nanometer scale Cited by: Chronicling the 11th US France Mechanics and physics of solids at macro- and nano-scales symposium, organized by ICACM (International Center for Applied Computational Mechanics) in Paris, Junethis book addresses the breadth of issues raised.
It covers a comprehensive range of scientific and technological topics (from elementary plastic events in metals and materials in harsh.
A comparative study for picosecond and nanosecond laser structuring was performed in order to identify structure geometries and dimensions that efficiently reduce the significant volume changes during electrochemical cycling of SnO 2, a promising anode structures with widths of 20 μm could significantly improve cycling stability of 3 μm thick magnetron sputtered SnO 2 thin : Robert Kohler, Johannes Proell, Heino Besser, Maika Torge, Steffen Scholz, Todor Dobrev, Sven Ulrich.
Ultrafast laser material processing has received significant attention due to a growing need for the fabrication of miniaturized devices at micro- and nanoscales.
The traditional phenomenological laws, such as Fourier's law of heat conduction, are challenged in the microscale regime and a hyperbolic or dual phase lag model should be employed. During ultrafast laser interaction. A laser that is constructed within an optical fiber.
It is similar in concept to gas lasers and laser diodes, except that a part of the fiber itself is used as the resonating cavity where the laser action takes place.
A laser diode is used as a pump, and mirrors accept the pump wavelength on one side and transmit the lased wavelength on the other. Discover Book Depository's huge selection of Craig B Arnold books online.
Laser-Material Interactions at Micro/Nanoscales: Volume Yongfeng Lu. 28 Nov Laser-Based Micro- And Nanoprocessing: No. Udo Klotzbach. 30 Jun.Y.S. Zhou, W. Xiong, M.M. Samani, Y.
Gao, M. Mitchell, and Y.F. Lu, “What Can Lasers Do in the Nano-Fabrication of Carbon Nanotube Based Devices?”, Invited talk, Symposium TT: Laser-Material Interactions at Micro/Nanoscales, MRS Spring Meeting (Materials Research Society, AprilSan Francisco, CA) Short-Time Thermal Effects on Thermomechanical Response Caused By Pulsed Lasers.
Analysis of Energy Transport Equations at Micro/Nanoscales. Femtosecond laser induced structural dynamics and melting of Cu () single crystal. Laser-material interactions Cited by: