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Laser Ablation John C. Miller

Laser Ablation By John C. Miller

Laser Ablation by John C. Miller

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Summary

Proceedings of a Workshop Held in Oak Ridge, Tennessee, USA, 8-10 April 1991

Laser Ablation Summary

Laser Ablation: Mechanisms and Applications by John C. Miller

Lasers can readily remove very thin layers from small areas of a material and can thus be used both to control the structure of the surface and to determine its composition. Laser ablation thus has a wide variety of applications - from re-shaping the cornea of the eye to correct vision and micro-machining electronic devices, to detection of minute contaminants on catalysts. This book is the proceedings of one ofthe first workshops held on this topic.

Table of Contents

Diagnostic studies of YBa2Cu3O7?? laser ablation.- Pulsed laser deposition of high temperature superconducting thin films and hetero-structure.- In-Situ monitoring of laser ablation of superconductors.- Spectroscopic and ion probe characterization of laser produced plasmas used for thin film growth.- Synthesis of SiO2 thin films by reactive excimer laser ablation.- Characteristics of laser-material interactions monitored by inductively coupled plasma-atomic emission spectroscopy.- Trace surface analysis using ion and photon desorption with resonance ionization detection.- Pulse rate dependence of laser desorption and ionization of molecules on thin metal films: Mathematics of laser heating and pulse rate dependence.- Photodesorption of metal atoms by collective electron excitation.- Desorption of Al, Au, and Ag using surface plasmon excitation.- Threshold fluence UV laser excitation of W(100) and O2,H2,F/W(100): Photoejected ion KE distributions.- Excimer laser ablation of CdTe.- IR-laser ablation in medicine: Mechanisms and applications.- Pulsed laser ablation of biological tissue: Review of the mechanisms.- Etching polymer films with continuous wave ultraviolet lasers - The photokinetic effect.- Mechanistic insight in the laser-pulse sputtering of polymers by combined photographiy and gas-dynamic analysis.- Laser desorption and multiphoton ionization of some smaller biomolecules: Recent results and prospects.- Matrix-assisted laser desorption and ionization of biomolecules.- Laser ablation of intact massive biomolecules.- Applications of matrix-assisted laser desorption fourier transform mass spectrometry for biomolecules.- Comparison of atomization processes: Trace element analysis using Ris of laserirradiated and ion-bombarded biological and metal surfaces.- Laser desorption of peptide molecules and ions using 193 nm radiation.- Ablation of material by front surface spallation.- Laser ablation and optical surface damage.- Laser induced photodissociation, desorption and surface reaction dynamics.- Mechanisms of laser ablation of monolayers as determined by laser-induced fluorescence measurements.- Laser-induced particle emission from surfaces of non-metallic solids: A search for primary processes of laser ablation.- Charged particle emission by laser irradiated surfaces.- Laser ejection of Ag+ ions from a roughened silver surface: Role of the surface plasmon.- A surface plasmon model for laser ablation of Ag+ Ions from a roughened Ag surface.- UV laser ablation from ionic solids.- Physics of pulsed laser ablation at 248 nm: Plasma energetics and Lorentz interactions.- Excimer laser ablation of ferrite ceramics.- Charge emission from silicon and germanium surfaces irradiated with KRF excimer laser pulses.- Pulsed laser deposition of tribological materials.- Ion-molecule reactions of carbon cluster anions.- Doubly charged negative ions of bucky ball - C60 2-.- Evaporation as a diagnostic test for hydrodynamic cooling of laser-ablated clusters.- Desorption of large organic molecules by laser-induced plasmon excitation.- Simultaneous bombardment of wide bandgap materials with UV excimer irradiation and keV electrons.- Superconducting transport properties and surface microstructure for YBa2Cu3O7-?-based superlattices grown by pulsed laser deposition.- Monitoring Laser Heating of Materials with photothermal Deflection Techniques.- Studies of laser ablation of graphite: Cn +/? Ion Kinetic energy distributions.- Infrared laser induced ablation and melting in model polymer crystals.- Chemical characterization of microparticles by laser ablation in an ion trap mass spectrometer.- Photophysical processes in uv laser photodecomposition of Bi2Sr2Ca1CU2O8 and YBa2Cu3Ox+6.- Influence of liquefaction on laser ablation: drilling depth and target recoil.

Additional information

NLS9781475769821
9781475769821
1475769822
Laser Ablation: Mechanisms and Applications by John C. Miller
John C. Miller
Lecture Notes in Physics
New
Paperback
Springer-Verlag New York Inc.
2013-07-16
362
N/A
Book picture is for illustrative purposes only, actual binding, cover or edition may vary.
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