Multiphoton lithography
http://dbpedia.org/resource/Multiphoton_lithography an entity of type: WikicatOptics
La polimerizzazione multifotone (anche nota come "scrittura laser diretta") è un processo di fabbricazione laser seriale che permette di realizzare strutture a livello sub-micrometrico con resine foto impressionabili (fotoresina). La fotopolimerizzazione multifotone permette una fabbricazione laser tridimensionale estremamente versatile. Presenta evidenti vantaggi rispetto alle tecniche fotolitografiche standard, come la possibilità di realizzare strutture tridimensionali all'interno di un volume di resina, la mancanza di maschere durante i processi di polimerizzazione e la possibilità di realizzare strutture con elementi caratteristici nell'ordine dei 100nm.
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Multiphoton lithography (also known as direct laser lithography or direct laser writing) of polymer templates has been known for years by the photonic crystal community. Similar to standard photolithography techniques, structuring is accomplished by illuminating negative-tone or positive-tone photoresists via light of a well-defined wavelength. The fundamental difference is, however, the avoidance of reticles. Instead, two-photon absorption is utilized to induce a dramatic change in the solubility of the resist for appropriate developers.
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Polimerizzazione multifotone
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Multiphoton lithography
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Multiphoton lithography (also known as direct laser lithography or direct laser writing) of polymer templates has been known for years by the photonic crystal community. Similar to standard photolithography techniques, structuring is accomplished by illuminating negative-tone or positive-tone photoresists via light of a well-defined wavelength. The fundamental difference is, however, the avoidance of reticles. Instead, two-photon absorption is utilized to induce a dramatic change in the solubility of the resist for appropriate developers. Hence, multiphoton lithography is a technique for creating small features in a photosensitive material, without the use of complex optical systems or photomasks. This method relies on a multi-photon absorption process in a material that is transparent at the wavelength of the laser used for creating the pattern. By scanning and properly modulating the laser, a chemical change (usually polymerization) occurs at the focal spot of the laser and can be controlled to create an arbitrary three-dimensional periodic or non-periodic pattern. This method has been used for rapid prototyping of structures with fine features. Two-photon absorption is a third-order with respect to the third-order optical susceptibility and a second-order process with respect to light intensity. For this reason it is a non-linear process several orders of magnitude weaker than linear absorption, thus very high light intensities are required to increase the number of such rare events. For example, tightly-focused laser beams provide the needed intensities. Here, pulsed laser sources are preferred as they deliver high-intensity pulses while depositing a relatively low average energy. To enable 3D structuring, the light source must be adequately adapted to the photoresist in that single-photon absorption is highly suppressed while two-photon absorption is favoured. This condition is met if and only if the resist is highly transparent for the laser light's output wavelength λ and, simultaneously, absorbing at λ/2. As a result, a given sample relative to the focused laser beam can be scanned while changing the resist's solubility only in a confined volume. The geometry of the latter mainly depends on the iso-intensity surfaces of the focus. Concretely, those regions of the laser beam which exceed a given exposure threshold of the photosensitive medium define the basic building block, the so-called voxel. Other parameters which influence the actual shape of the voxel are the laser mode and the refractive-index mismatch between the resist and the immersion system leading to spherical aberration. It was found that in laser 3D nanolithography can be employed to fine-tune the feature sizes (and corresponding aspect ratio) in the structuring of photoresists. This proves polarization to be a variable parameter next to laser power (intensity), scanning speed (exposure duration), accumulated dose, etc. Recently it was shown that combining ultrafast laser 3D nanolithography followed by thermal treatment one can achieve additive-manufacturing of 3D glass-ceramics. In addition, a plant-derived renewable pure bioresins without additional photosensitization can be employed for the optical rapid prototyping.
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La polimerizzazione multifotone (anche nota come "scrittura laser diretta") è un processo di fabbricazione laser seriale che permette di realizzare strutture a livello sub-micrometrico con resine foto impressionabili (fotoresina). La fotopolimerizzazione multifotone permette una fabbricazione laser tridimensionale estremamente versatile. Presenta evidenti vantaggi rispetto alle tecniche fotolitografiche standard, come la possibilità di realizzare strutture tridimensionali all'interno di un volume di resina, la mancanza di maschere durante i processi di polimerizzazione e la possibilità di realizzare strutture con elementi caratteristici nell'ordine dei 100nm.
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17169