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Femtosecond Laser-Matter Interactions

Eugene G. Gamaly
€172.36
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Ablated Plume
Ablation Threshold
Absorbed Energy Density
Applications of Ultra-Short Laser-Matter Interactions
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Band Gap
Basics of Ultra-Short Laser-Solid Interactions
BB
Bessel beam applications
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Collision Rate
Conduction Band
Coulomb Collisions
Deposited Energy Density
Electrically Inhomogeneous
Electron Number Density
Electronic Heat Conduction
Energy Density
Energy Transfer Time
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Focal Spot
High Energy Tail
high pressure synthesis
Ideal Plasma
Ionization Rate
Laser Matter Interaction
Life and Death of Phonons
micro-explosion materials science
Phase Equilibrium Curve
phase transition dynamics
Pristine Crystal
Rest Energy
SACLA
Subtle Atomic Motion Preceding a Phase Transition: Birth
tabletop nanostructure fabrication
Ultra-Fast Disordering by fs-Lasers: Superheating Prior to Entropy Catastrophe
Ultra-Short Laser-Matter Interaction Confined Inside a Bulk of Transparent Solid
Ultra-short Pulse
ultrafast laser processing
unconventional states of matter
Wide Band Gap Dielectrics

Product details

  • ISBN 9789814877404
  • Weight: 589g
  • Dimensions: 152 x 229mm
  • Publication Date: 31 Jan 2022
  • Publisher: Jenny Stanford Publishing
  • Publication City/Country: SG
  • Product Form: Hardback
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Description

This book describes the ultra-short laser–matter interactions from the subtle atomic motion to the generation of extreme pressures inside the bulk of a transparent crystal. It is the successor to Femtosecond Laser–Matter Interactions: Theory, Experiment and Applications (2011). Explanation and experimental verification of the exceptional technique for the phase transformations under high pressure are in the core of the book. The novel phase formation occurs along the unique solid-plasmasolid transformation path: the memory of the initial state is lost after conversion to plasma. New phase forms from chaos during the cooling to the ambient. The pressure-affected material remains detained inside a pristine crystal at the laboratory tabletop. Unique super-dense aluminium and new phases of silicon were created by the confined micro-explosions. The text also describes the recent studies that used the quasi-non-diffracting Bessel beams. The applications comprise the new high-pressure material formation and micromachining. The book is an appealing source for readers interested in the cutting-edge research exploring extreme conditions and creating nanostructures at the laboratory tabletop.
About Eugene G. Gamaly

Eugene G. Gamaly received an MSc from Moscow State University (1958), PhD from the Russian Federal Nuclear Centre (1970), and DSc and Professorship in Physics from P. N. Lebedev Physical Institute, Russian Academy of Sciences (1980). He worked for the Federal Nuclear Centre in the fields of high-temperature/-density plasma physics and nuclear fission/fusion (1958–1973). He joined P. N. Lebedev Physical Institute on the invitation of Prof. Basov, a Nobel laureate. His work within Prof. Basov’s team featured pioneering research on laser-induced fusion and on the fundamentals of short/intense laser–matter interaction (1973–1992). Prof. Gamaly worked for the Australian National University (1992–2015) on the ultra-short laser–matter interactions comprising the studies from the gentle phonon excitation up to unique material formation at the extreme energy density. He has authored or co-authored two books, 25 book chapters and more than 300 papers in refereed journals.

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