Modeling and experimental realization of modelocked VECSEL producing high power sub-100 fs pulses
Abstract
A microscopic many-body theory driven design and optimization supports the experimental demonstration of sub-100 fs pulse duration directly from a semiconductor laser. A passively modelocked vertical external cavity surface emitting laser producing a pulse duration of 95 fs at a central wavelength of 1025 nm is demonstrated. The semiconductor gain and absorber structures used in the experiment are numerically optimized by modelling the pulse formation dynamic of the system. The resulting structure design is described in detail and the physical limitations in terms of pulse duration and power are discussed. Using a ring cavity geometry, a stable colliding pulse modelocking regime with an output power of 90 mW per beam at a repetition rate of 2.2 GHz is demonstrated. The output pulses are thoroughly characterized and are in good agreement with our predictive model.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Sep 17, 2018
- Source ID
- 10.1063/1.5042263
Entities
People
- Alexandre Laurain
- Antje Ruiz Perez
- Ganesh Balakrishnan
- I. Kilen
- J. Hader
- Jerome V. Moloney
- Peter Ludewig
- Sadhvikas Addamane
- Stephan W. Koch
- Wolfgang Stolz
Organizations
- Air Force Office of Scientific Research
- University of Arizona
- University of Marburg
- University of New Mexico