Jennifer Stone-Sundberg

Narasimha S. Prasad; Chris Urbina; Bradford C. Tousley; Ramesh K. Shori; Jennifer Stone-Sundberg; Milan R. Kokta

In this paper, pulsed operation of the 980 nm diode-pumped Yb:Er:glass solid-state-laser operating at 1543 nm using Co:Spinel saturable absorber is described. The Yb:Er:glass gain medium was end-pumped using a 10 W fiber-coupled 980 nm laser diode. Passively q-switched laser operation was accomplished for both CW and quasi-CW operations. Up to 2 mm thick uncoated Co:Spinel samples were used for our tests. With quasi-CW pumping, pulsewidths greater than 20 ns, pulse energies of greater than 250 μJ and free-running PRFs up to 1.2 kHz have been demonstrated. So far, up to 3 % optical-to-optical efficiency has been achieved with uncoated q-switch materials. Currently, this laser is being developed for pumping a long-wave IR (8-12 μm) optical parametric oscillator for use in spectrapolarimetric applications.

Jennifer Stone-Sundberg; Milan R. Kokta; Narasimha S. Prasad; Ramesh K. Shori

The development of an alumina-rich cobalt-doped spinel saturable absorber for the passive q-switching of 1530-1555 nm lasing is reported1. This optimized composition results in crystals with excellent dopant uniformity that are highly manufacturable. The crystal growth and materials characterization are described as well as initial passive qswitch testing of the material. The single crystals grown and investigated crystallized in the Fd3m space group and have the formula Mg1-xCoxAlyOz where x is greater than 0 and less than 1, y is greater than 2 and less than about 8, and z is between about 4 and 13. Comparison data of stoichiometric spinel MgAl2O4 and alumina-rich non-stoichiometric spinel MgAl6O10 are presented. The spinel lattice is comprised of octahedral and tetrahedral cationic sites, and in the alumina-rich spinel essentially all of the magnesium and cobalt occupy tetrahedral sites. The alumina-rich cobalt-doped spinel studied exhibited uniform cobalt-dopant distribution throughout the crystal and desirable mechanical and physical properties. Q-switched pulses were produced using the alumina-rich Co2+:MgAl6O10 saturable absorber in a 980 nm diode-pumped Yb:Er:glass solid-state-laser operating at 1543 nm. The q-switching established employed the 4T1 absorption band of the Co2+: MgAl6O10 and with quasi-CW pumping, pulsewidths greater than 20 ns, pulse energies of greater than 250 mJ, and free-running pulse repetition frequencies (PRFs) up to 1.2 kHz were demonstrated.

Mario K. Furtado; Ramesh Shori; Oscar M. Stafsudd; Jennifer Stone-Sundberg; Milan R. Kokta

Temperature dependent fluorescent lifetime measurements of the 4I11/2 and 4I13/2 levels in Er,RE:YAG show nearly two orders of magnitude reduction in the fluorescent lifetime of the4I13/2 level.

Eunchong Kanchanavaleerat; Didier Cochet-Muchy; Milan R. Kokta; Jennifer Stone-Sundberg; Paul Sarkies; Julian Sarkies; Jonathan Sarkies

F. Tinjod; P. de Mierry; D. Lancefield; Zahia Bougrioua; S. Laügt; O. Tottereau; P. Lorenzini; S. Chenot; Eric Virey; Milan R. Kokta; Jennifer Stone-Sundberg; Damien Pauwels

Milan R. Kokta; Jennifer Stone-Sundberg; Jeffrey Cooke; Ronald Ackerman; Hung Ong; Emily Corrigan

Jennifer Stone-Sundberg; Milan R. Kokta; Robert Cink; Hung Ong

Jennifer Stone-Sundberg; Richard L. Johnson; Milan R. Kokta; Jeffrey Cooke

Frank Tinjod; Philippe De Mierry; David Lancefield; S. Chenot; Eric Virey; Jennifer Stone-Sundberg; Milan R. Kokta; Damien Pauwels

Jennifer Stone-Sundberg; Milan R. Kokta