Abstract
First order distributed feedback optofluidic dye lasers embedded in a 350 microm thick TOPAS((R)) foil are demonstrated. They are designed in order to give high output pulse energies. Microfluidic channels and first order distributed feedback gratings are fabricated in parallel by thermal nanoimprint into a 100 microm foil. The channels are closed by thermal bonding with a 250 microm thick foil and filled with 5.10(-3) mol/l Pyrromethene 597 in benzyl alcohol. The fluid forms a liquid core single mode slab waveguide of 1.6 microm height on a nanostructured grating area of 0.5 x 0.5 mm(2). This results in a large gain volume. Two grating periods of 185 nm and 190 nm yield single mode laser light emission at 566 nm and 581 nm respectively. High emitted pulse energies of more than 1 microJ are reported. Stable operation for more than 25 min at 10 Hz pulse repetition rate is achieved.
Highlights
Since their first demonstration [1] optofluidic dye lasers based on distributed feedback (DFB) have gained interest as coherent visible light sources for lab-on-chip systems and integrated optics [2,3]
First order distributed feedback optofluidic dye lasers embedded in a 350 μm thick TOPAS® foil are demonstrated
Microfluidic channels and first order distributed feedback gratings are fabricated in parallel by thermal nanoimprint into a 100 μm foil
Summary
Since their first demonstration [1] optofluidic dye lasers based on distributed feedback (DFB) have gained interest as coherent visible light sources for lab-on-chip systems and integrated optics [2,3]. Optofluidic dye lasers are optically pumped by frequency doubled Nd:YAG lasers. Such lasers, having high enough output pulse energies, could serve as visible coherent light sources for applications in spectroscopy, biosensing, e.g. excitation of fluorescent markers, or surface enhanced Raman spectroscopy (SERS). In this paper we demonstrate optofluidic first order distributed feedback liquid core dye lasers nanoimprinted in a TOPAS® foil with a liquid core of Pyrromethene 597 dissolved in benzyl alcohol. The lasers are designed in order to give high output pulse energies
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