Optical Fibers and Sensors for Medical Diagnostics and Treatment Applications ...SPIE, 2007 - Biosensors |
From inside the book
Results 1-3 of 21
Page 643308-11
... polymer layer . Conceivably , with higher absorption coefficient and lower laser damage threshold than the silica glass , the polymer material is more susceptible to laser damage . Therefore , we hypothesize that the fiber failure is ...
... polymer layer . Conceivably , with higher absorption coefficient and lower laser damage threshold than the silica glass , the polymer material is more susceptible to laser damage . Therefore , we hypothesize that the fiber failure is ...
Page 3
... polymer cover layer on the silver , we can reduce the loss by using the interference effect . We formed a cyclic - olefin - polymer ( COP ) that has high optical quality and chemical stability . The transparent polymer layer acts as ...
... polymer cover layer on the silver , we can reduce the loss by using the interference effect . We formed a cyclic - olefin - polymer ( COP ) that has high optical quality and chemical stability . The transparent polymer layer acts as ...
Page 7
... polymer or organic material such as fluorocarbon polymer ( FCP ) [ 11 ] , polyimide ( PI ) [ 12 ] , and cyclic olefin polymer ( COP ) [ 3 ] , were also used . Polymer - coated hollow glass fibers attained low loss not only in infrared ...
... polymer or organic material such as fluorocarbon polymer ( FCP ) [ 11 ] , polyimide ( PI ) [ 12 ] , and cyclic olefin polymer ( COP ) [ 3 ] , were also used . Polymer - coated hollow glass fibers attained low loss not only in infrared ...
Other editions - View all
Common terms and phrases
absorbance absorption Applications VII edited autofluorescence ball lens beam spatial structure beam structure cecum cell coating colon core detection system dielectric diode doping content dysplasia emission endoscope energy epithelial excitation experimental fiber geometry fiber optic fiber-optic fiber's photosensitivity Fibers and Sensors filter fluorescence lifetime Ge-Te-I glucosamine HCPCF Ho:YAG hollow fiber hollow glass waveguides hollow optical fiber hollow waveguide imaging infections infrared intensity Israel Gannot lens light source lightwave Matsuura mdrla measured Medical Diagnostics mice Miyagi NADH optical fiber output peak phantoms photon photonic crystal fiber photosensitivity polymer polystyrene pressure microsensor Pseudomonas Aeruginosa Pulsed Xenon radiation Raman probe refractive index sample scanning Sensors for Medical SERS shown in Figure signal silica spectrometer spectrophotometer spectroscopy spectrum SPIE Vol Staphylococcus aureus surface technique Technology tellurium temperature therapeutic tissue Tm:YAG transmission Treatment Applications VII ultraviolet UV-LEDs vivo waveguide wavelength Wavelength nm Xenon