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Pulsed Laser Ablation of Solids

Basics, Theory and Applications

  • Mihai Stafe
  • Aurelian Marcu
  • Niculae N. Puscas

Part of the Springer Series in Surface Sciences book series (SSSUR, volume 53)

Table of contents

  1. Front Matter
    Pages i-xii
  2. Mihai Stafe, Aurelian Marcu, Niculae N. Puscas
    Pages 1-13
  3. Mihai Stafe, Aurelian Marcu, Niculae N. Puscas
    Pages 15-51
  4. Mihai Stafe, Aurelian Marcu, Niculae N. Puscas
    Pages 53-76
  5. Mihai Stafe, Aurelian Marcu, Niculae N. Puscas
    Pages 77-141
  6. Mihai Stafe, Aurelian Marcu, Niculae N. Puscas
    Pages 143-214
  7. Mihai Stafe, Aurelian Marcu, Niculae N. Puscas
    Pages 215-224
  8. Mihai Stafe, Aurelian Marcu, Niculae N. Puscas
    Pages 225-229
  9. Back Matter
    Pages 231-233

About this book

Introduction

The book introduces ‘the state of the art' of pulsed laser ablation and its applications. It is based on recent theoretical and experimental studies. The book reaches from the basics to advanced topics of pulsed laser ablation. Theoretical and experimental fundamental phenomena involved in pulsed laser ablation are discussed with respect to material properties, laser wavelength, fluence and intensity regime of the light absorbed linearly or non-linearly in the target material. The energy absorbed by the electrons leads to atom/molecule excitation, ionization and/or direct chemical bond breaking and is also transferred to the lattice leading to material heating and phase transitions. Experimental  non-invasive optical methods for analyzing these phenomena in real time are described. Theoretical models for pulsed laser ablation and phase transitions induced by laser beams and laser-vapour/plasma interaction during the plume expansion above the target are also presented. Calculations of the ablation speed and dimensions of the ablated micro- and nano-structures are performed. The validity and required refinement of different models in different experimental conditions is provided. The pulsed laser deposition process which bases on collecting the ablated particles on a surface is analyzed in terms of efficiency and quality of the deposited films as a function of ambient conditions, target material, laser parameters and substrate characteristics. The interaction between the incident laser and the ablation plasma is analyzed with respect to its influence on the structures of the deposited films and its capacity to generate high harmonics and single attosecond pulses which are highly desirable in pump-probe experiments.

Keywords

ablation plasma interaction between laser and plasma laser plasma interaction laser processing pulsed laser ablation pulsed laser depostion

Authors and affiliations

  • Mihai Stafe
    • 1
  • Aurelian Marcu
    • 2
  • Niculae N. Puscas
    • 3
  1. 1.Dept. of PhysicsUniversity Politehnica of BucharestBucharestRomania
  2. 2.Laser DepartmentNational Institute for Laser Plasma and Radiation PhysicsBucharest-MagureleRomania
  3. 3.Dept. of PhysicsUniversity Politehnica of BucharestBucharestRomania

Bibliographic information

  • DOI https://doi.org/10.1007/978-3-642-40978-3
  • Copyright Information Springer-Verlag Berlin Heidelberg 2014
  • Publisher Name Springer, Berlin, Heidelberg
  • eBook Packages Physics and Astronomy
  • Print ISBN 978-3-642-40977-6
  • Online ISBN 978-3-642-40978-3
  • Series Print ISSN 0931-5195
  • Buy this book on publisher's site