Intracavity upconversion lasing within a Q-switched Nd: YAG laser

Two-photon pumped upconversion intracavity lasing is achieved by placing a 1 cm-long dye-solution filled liquid cell inside a Q-switched Nd: YAG pulsed laser cavity. The upconversion gain medium is the solution of a new dye, trans-4-[p-(N-hydroxyethyl-N-methylamino)styryl]-N-methylpyridinium iodide, abbreviated as ASPI, which has strong two-photon absorption and subsequent upconversion fluorescence emission when excited with 1.06 μm laser radiation. The spectral, temporal, and spatial properties of the upconverted cavity lasing output are investigated. The key parameters for upconversion lasing are emission wavelength of ~623 nm, pulse duration of ~(2-10) ns, and beam divergence of ~(2.5-4) mrad. The corresponding parameters for the pump lasing from the same cavity are 1.06 μm, 20 ns, and ~(5-7) mrad, respectively. The net conversion efficiency from the absorbed IR pump laser pulse energy to the visible lasing pulse energy is measured to be ~8.5%

New Frontiers of Photonics: Nanophotonics and Biophotonics

Photonics which has been called by many as the dominant technology for the 21st century is a rapidly evolving field, adding new dimensions in this area of research. In our laboratory, we have recently focused on two new areas: Nanophotonics and Biophotonics. Nanophotonics deals with optical science and technology at the nanoscale level. Biophotonics involves the use of optical methods for imaging and detection at cellular and tissue levels as well as for optically guided and activated therapy. Here we present an overview of our effort in these areas