Problem Solver

Tiberius Brastaviceanu

Please contact me by email.

Areas Tiberius Brastaviceanu is Knowledgeable in:

Laser-matter interaction in the high power regime.
Biomedical laser applications.
Open Enterprise and self governance.

Tiberius Brastaviceanu's Problem Solving Skills:

  1. non linear optics
  2. design
  3. engineering
  4. language
  5. collaboration
  6. laser applications
  7. nuclear medicine
  8. radiobiology
  9. laser material processing
  10. optical assemblies

Tiberius Brastaviceanu's Problem Solving Experience:

  1. I developed and prototyped an optical fiber-based displacement/force sensor
  2. I developed a fully functional sub-ps laser material processing system, from the ground up.
  3. I designed the Discovery Network concept, an open collaborative organization for production and distribution of material goods and services.
  4. I developed a new ps LIBS (spectroscopy) technique, with low energy sub-ps laser pulses at 1.5 microns.
  5. I developed a method for depth assessment and optical alignment based on third harmonic generation used in laser material processing.
  6. I developed a laser-based microtome, using a low energy 1.5 microns sub-ps pulsed laser beam.
  7. I demonstrated flap cutting with detachment in cornea (similar to LASIK) at 1.5 microns, using low energy sub-ps laser pulses.
  8. I opened a new area of high-power pulsed laser application based on secondary effects of photolytic products. This method can be use in material processing, as well as in radiobiology and radiation chemistry. Patent application was filed. Clinical studies for skin cancer treatment based on this method are under way.
  9. Development of a state-of-the-art laser-based molecular force measurement system with unparalleled spatial and temporal resolution. I performed characterization and proof of concept experiments in the field of muscle contraction dynamics at sub-cellular level.
  10. I designed and created a modular and configurable automation and integration Labview program, suitable for a research environment.
  11. I developed an integration and automation software for a microfluidic probe experimental system, comprising an inverted microscope, multiple dosing units, electromecanical motion devices, and a CCD camera.
  12. I invented and prototyped the Matchmaking Device System, a social interaction gadget.