Laser Physics and Photonic Materials

Researchers

2

2

Accepted patents

1 Accepted patentsobtained during the
last 10 years

Indexed publications

99 Indexed publicationsobtained during the
last 10 years

Internal colaborations

  • 0 Co-publications Nº of co-publications
    in last 10 years
  • 0 Co-supervised postdoc Nº of co-supervised post-docs in the last 5 years
  • 0 Co-supervised thesis Nº of co-supervised
    thesis in last 5 years
  • 0 Joint project underway Nº of currently
    ongoing projects
  • 0 Joint projects in the past Nº of projects in last 5 years, that already finished
  • 1 Same nat or internal network Nº of collaboration networks in last 10 years

Description

The group of "Laser Physics and Photonic Materials" (LASES) of the UPV / EHU-CFM is specialized in the investigation of light-matter interaction processes in new photonic materials with potential applications in the fields of optoelectronics (optical amplifiers, lasers, light converters, laser cooling ...) and biomedicine (nanostructured optical tracers, multispectral 3D images, sensors).

A significant part of the research is devoted to the study of the luminescent properties of new laser materials (crystals, glasses, ceramics and micro-nanostructures). In particular, to the understanding of the influence of the host matrix on the spectroscopic properties of active ions (or molecules) to improve the quantum efficiency of their emissions and to determine both their potential in the laboratory and in specific technological applications. These studies cover a broad spectrum of activity ranging from pure basic research to experimentation with prototypes including their design, simulation, operation and the patented.

Research in optical characterization of photonic materials by using high resolution spectral and temporal spectroscopies, theoretical and experimental studies of laser-induced cooling processes in solid-state materials, theoretical and experimental studies of light propagation and confinement in micro-nano structurated inhomogeneous media: random lasers and biomedical applications, design, make up, and simulation of optoelectronic devices such as optical amplifiers, lasers, light conversors, etc.

Main researcher

Rolindes Balda

Other researchers

Contact information

Rolindes Balda Dpto. Física Aplicada I, Escuela de Ingeniería de Bilbao, Plaza Torres Quevedo 1, 48013 Bilbao

946014258

Send an email

Research center

UPV-EHU

Laser Spectroscopy and Photonic Materials Institut de Chimie de la Matière Condensée Université de Bordeaux Universidad de Aveiro, Portugal University of Rennes, France Université Côte d'Azur International GI GI UBDX GI PV
Nonstructural collaboration / informal Joint project underway Joint projects in the past Intention to begin a joint project Co-supervised thesis Co-publications Co-supervised postdoc Same nat or internal network Laser Spectroscopy and Photonic Materials Applied PhotonicsGroup Molecular SpectroscopyGroup Nanomaterials andSpectroscopy Group
Advanced materials and processes Energy efficiency Advanced manufacturing
Advanced spectroscopy and imaging techniques Ultrafast high-intensity lasers and interactions Ultrafast optics Light-matter interaction and spectroscopy Laser processing New optical materials Non-linear optics Nanomaterials Imaging &Spectrosopy Lasers and sources Photonic materials Nanophotonics Opto-electronics (lasers & detectors) Optical fibers Photonics devices and engineering

 

 

 

 

 

 

 

  • Optical characterization of photonic materials
  • Laser-induced cooling processes in solid-state materials
  • Light propagation
  • Design, make up, and simulation of optoelectronic devices
  • Photonics devices and engineering
  • Opto-electronics (lasers & detectors)
  • Optical fibers
  • Nanophotonics
  • Opto-electronics (lasers & detectors)
  • Nanomaterials
  • Photonic materials
  • Nanomaterials
  • Non-linear optics
  • New optical materials
  • Optical fibers
  • Imaging & Spectrosopy
  • Advanced spectroscopy and imaging techniques
  • Light-matter interaction and spectroscopy
  • Lasers and sources
  • Ultrafast high-intensity lasers and interactions
  • Laser processing
  • Ultrafast optics
  • Light-matter interaction and spectroscopy
  • Continuous and time-resolved (with nano-pico-femtoseconds excitation laser sources) spectroscopies with high spectral resolution in the ultraviolet-visible-infrared (UV-VIS-IR) radiation domains, together with low temperature facilities (4K)
  • Multiphoton microscope with time-resolved possibilities
  • Conventional spectrometers in the UV-VIS-NIR range.
  • Tecnalia
  • Faculty of Sciences UPV-EHU
  • University of Rennes (France)
  • University of Aveiro (Portugal)
  • Institute for Photonics and Nanotechnologies, Trento
  • University of Verona
  • University Côte d'Azur
  • Polish Academy of Sciences
  • Solar Energy Conversion
  • Photodynamic therapy for cancer and other illness
  • Advanced manufacturing
  • Advanced materials and processes
  • Energy efficiency
  • Ageing society
  • Development of novel healthcare treatments based on photonics
  • Clean growth and clean environment
  • Energy efficiency (highly efficient energy generation, lighting, etc.)
  • Green photonics (for example organic photovoltaics, OLEDs)
  • Solar Energy conversion
  • Security and safety for society
  • Advanced sensing and imaging techniques