Page 244 - Handbook of Lasers
P. 244
polystyrene (microring laser) pyrromethane dye 573, 577 (e) dye laser (520) 108
polystyrene (microring laser) pyrromethane dye ~600–610 (f) dye laser (520) 108
polystyrene rhodamine 640 ~600 Nd:YAG laser (1064) - TP 56
polystyrene (WGM) Nile Red ~610–620 dye laser (520) 102
polystyrene (WGM) Nile Red ~605–620 Nd:YLF laser (523) 103
polystyrene (WG) rhodamine 6G 614–624 N 2 laser (337) 11
polyurethane rhodamine 6G 610–635 Ne laser (540) 62
polyurethane rhodamine 6G 610–635 N 2 laser (337) 63, 64
polyurethane (film) rhodamine B 632.8 (A) N 2 laser (337) 68
polyurethane rhodamine 110 643 Ar ion laser (514) 69
polyurethane indodicarbocyanine (PK 643) 680 (A) (532, 635, 670) 71
polyvinylxylene dimethyl-POPOP 425 Nd:YAG laser (355) 8
Probimide 414 (g) (WG) cresyl violet 670 670 dye laser (590) 84
sym-octahydroanthracene (crystal) anthracene 408–410 N 2 laser (337) 9
A – amplified wavelength, EB – electron beam, ET – energy transfer from host to dye, TP – two-photon pumped, WG – waveguide, WGM –
whispering galley mode
(a) Laser emission varied by changing the thickness of the active organic layer.
(b) See Ref. 20 for molecular structure of copolymer.
(c) 16% hydroxypropyl acrylate/methyl methacrylate.
(d) Host materials were polymethylmethacrylate and polyvinylalcohol. Dye in parentheses serves as a donor dye in an energy transfer laser.
(e) Polymer droplets formed around a 125-mm silica fiber.
(f) Polymer droplets formed around a 17-mm silica fiber.
(g) A photosensitive benzophenone tetracarboxylic diahydride-alkylated diamine polyimide.
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