1998
DOI: 10.1007/s003400050579
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Fabrication of three-dimensional periodic microstructures by means of two-photon polymerization

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Cited by 57 publications
(28 citation statements)
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“…The optical application of MAP that has received the greatest attention is the fabrication of photonic crystals ( Figure 10). [69,85,[139][140][141][142][143][144][145][146] The creation of these devices requires fabrication of 3D structures with subwavelength features. The ability of MAP to create 3D patterns with completely controllable geometries makes it an attractive approach to the fabrication of photonic crystals.…”
Section: Opticsmentioning
confidence: 99%
“…The optical application of MAP that has received the greatest attention is the fabrication of photonic crystals ( Figure 10). [69,85,[139][140][141][142][143][144][145][146] The creation of these devices requires fabrication of 3D structures with subwavelength features. The ability of MAP to create 3D patterns with completely controllable geometries makes it an attractive approach to the fabrication of photonic crystals.…”
Section: Opticsmentioning
confidence: 99%
“…MPP was first developed by Strickler and Webb, [62] and has now been used to create a range of high-resolution 3D free-form structures, including microchannels, [63][64][65] cantilevers, [66][67][68] microgears, [69,70] sub-micrometer oscillators, [71] hydrophobic atomic force microscopy tips, [72] and PhCs. [59,67,[73][74][75][76][77][78][79][80][81] Briefly, MPP utilizes the nonlinear nature of the multiphoton excitation process to only excite dye molecules in a very small volume around the focal point, with dimensions on the order of the resolution limit. These excited dye molecules locally initiate a polymerization.…”
Section: Direct Writingmentioning
confidence: 99%
“…Concluding remarks.-Although fabrication of the above "bar-code" structures may prove challenging at visible wavelengths using currently available technologies, future experimental realizations are entirely feasible in the midinfrared to microwave regimes, where complex features can be straightforwardly fabricated in polymers and ceramics with the aid of computerized machining, 3D printing, laser cutting, additive manufacturing, or two-photon lithography [55][56][57]. In particular, the low-index (refractive index ¼ 1.82) design (Fig.…”
Section: Prl 117 107402 (2016) P H Y S I C a L R E V I E W L E T T Ementioning
confidence: 99%