Observatorio de I+D+i UPM

Memorias de investigación
Communications at congresses:
Ultra-intense laser irradiation induced-high electronic excitation in bandgap materials: a quantum-kinetic model based on Boltzmann equation.
Year:2014
Research Areas
  • Engineering
Information
Abstract
High power laser systems - depend on the capacity of careful definition of damage threshold of the optical components. Transient optical properties of bandgap materials ?Ultrafast optics Particle emission Plasmonics - P.A. Danilov et al, submitted Detectors ? i.e. 3D diamond detectors in which graphitic columns fabricated by laser in the diamond bulk are used as electrodes for collecting the radiation induced charge- S. Lagomarsino et al Appl. Phys. Lett. 103, 233507 (2013) Deep microscopic understanding of the mechanisms of radiation damage is essential to improve the performance and lifetime of materials used for detection in radiation environments. Further progress requires a better understanding of fundamental processes involved in the laser material interactions. Simulate ultra-short high laser intensity-induced electronic excitation, absorption, the subsequent thermalization and relaxation processes in materials.
International
Si
Congress
Computer Simulation of Radiation Effects in Solids (COSIRES 2014)
960
Place
Alicante, Spain
Reviewers
Si
ISBN/ISSN
0000-0000
Start Date
08/06/2014
End Date
13/06/2014
From page
1
To page
27
Proceedings
Participants
  • Autor: T. Apostolova
  • Autor: P. Detistov
  • Autor: Y. Orieult
  • Autor: Jose Manuel Perlado Martin (UPM)
  • Autor: Antonio Juan Rivera de Mena (UPM)
Research Group, Departaments and Institutes related
  • Creador: Grupo de Investigación: Fusión Nuclear Inercial y Tecnología de fusión
  • Centro o Instituto I+D+i: Instituto de Fusión Nuclear
  • Departamento: Ingeniería Energética
S2i 2021 Observatorio de investigación @ UPM con la colaboración del Consejo Social UPM
Cofinanciación del MINECO en el marco del Programa INNCIDE 2011 (OTR-2011-0236)
Cofinanciación del MINECO en el marco del Programa INNPACTO (IPT-020000-2010-22)