A method for production of a photo-structurable glass element is provided. The method includes the steps of: fixing a blank of photo-structurable glass at a first end; heating of a deformation zone of the blank; and drawing the blank. The glass includes Si.sup.4+, a crystal-agonist, a crystal-antagonist, and a pair of nucleating agents. The crystal-agonist is selected from the group consisting of Na.sup.+, K.sup.+, Li.sup.+, and any combinations thereof. The crystal-antagonist is selected from the group consisting of Al.sup.3+, B.sup.3+, Zn.sup.2+, Sr.sup.2+, Sb.sup.3+, and any combinations thereof. The pair of nucleating agents include cerium and an agent selected from the group consisting of silver, gold, copper, and any combinations thereof. The crystal-agonist has a molar proportion cat.-% in relation to a molar proportion of Si.sup.4+ that is at least 0.3 and at most 0.85.

A method for production of a photo-structurable glass element is provided. The method includes the steps of: fixing a blank of photo-structurable glass at a first end; heating of a deformation zone of the blank; and drawing the blank. The glass includes Si.sup.4+, a crystal-agonist, a crystal-antagonist, and a pair of nucleating agents. The crystal-agonist is selected from the group consisting of Na.sup.+, K.sup.+, Li.sup.+, and any combinations thereof. The crystal-antagonist is selected from the group consisting of Al.sup.3+, B.sup.3+, Zn.sup.2+, Sr.sup.2+, Sb.sup.3+, and any combinations thereof. The pair of nucleating agents include cerium and an agent selected from the group consisting of silver, gold, copper, and any combinations thereof. The crystal-agonist has a molar proportion cat.-% in relation to a molar proportion of Si.sup.4+ that is at least 0.3 and at most 0.85.

In authentication of machineries and cards (artifact) that are used in social acts such as economic acts, an approach of artifact metrics corresponding to biometrics is effective. Therefore, the subject is to find out a material that satisfies requirements of artifact metrics and is, preferably, suppliable stably and also economically, to establish the production method thereof, and to apply these to an individual authentication system of artifact. Porous glass, which possesses a spinodal phase separation structure, is an individual authentication medium as artifact metrics. There is provided a production method thereof, and an individual authentication system utilizing the individual authentication medium.

In authentication of machineries and cards (artifact) that are used in social acts such as economic acts, an approach of artifact metrics corresponding to biometrics is effective. Therefore, the subject is to find out a material that satisfies requirements of artifact metrics and is, preferably, suppliable stably and also economically, to establish the production method thereof, and to apply these to an individual authentication system of artifact. Porous glass, which possesses a spinodal phase separation structure, is an individual authentication medium as artifact metrics. There is provided a production method thereof, and an individual authentication system utilizing the individual authentication medium.

A sensitized, photo-structurable glasses and methods for producing are provided. The glasses includes Si.sup.4+, one or more crystal-agonist, one or more crystal-antagonist, and one or more pair of nucleating agents. The glasses are sensitized in that the glass reacts more sensitive to irradiation with UV-light and can be crystallized easier and with higher aspect ratios than a non-sensitized glass with equal composition. Furthermore, the sensitized glasses of this invention have smaller crystal sizes after irradiation and tempering than a non-sensitized glass with equal composition. The invention also relates to a structured glass product. Such product can be obtained by submitting the crystallized glass product to a subsequent etching step. The structured product can be used in components or as component for the application fields micro-technology, micro-reaction-technology, electronic packaging, micro-fluidics, FED spacer, bio-technology, interposer, and/or three-dimensional structured antennae.

A sensitized, photo-structurable glasses and methods for producing are provided. The glasses includes Si.sup.4+, one or more crystal-agonist, one or more crystal-antagonist, and one or more pair of nucleating agents. The glasses are sensitized in that the glass reacts more sensitive to irradiation with UV-light and can be crystallized easier and with higher aspect ratios than a non-sensitized glass with equal composition. Furthermore, the sensitized glasses of this invention have smaller crystal sizes after irradiation and tempering than a non-sensitized glass with equal composition. The invention also relates to a structured glass product. Such product can be obtained by submitting the crystallized glass product to a subsequent etching step. The structured product can be used in components or as component for the application fields micro-technology, micro-reaction-technology, electronic packaging, micro-fluidics, FED spacer, bio-technology, interposer, and/or three-dimensional structured antennae.

Glass ceramics having SiO.sub.2 as main crystal phase and precursors thereof are described which are characterized by very good mechanical and optical properties and in particular can be used as restoration material in dentistry.

Glass ceramics having SiO.sub.2 as main crystal phase and precursors thereof are described which are characterized by very good mechanical and optical properties and in particular can be used as restoration material in dentistry.

Glass and glass ceramic compositions having a combination of lithium silicate and petalite crystalline phases along with methods of making the glass and glass ceramic compositions are described. The compositions are compatible with conventional rolling and float processes, are transparent or translucent, and have high mechanical strength and fracture resistance. Further, the compositions are able to be chemically tempered to even higher strength glass ceramics that are useful as large substrates in multiple applications.

An optical fiber for efficient coupling of optical signals to photonic devices. The optical fiber includes a Cl doped tapered core region with a changing outer diameter and changing maximum core refractive index to provide improved coupling at wavelength of interest to photonic devices. The photonic devices may be, for example, silicon photonic devices with an operating wavelength at or near 1310 nm, or at or near 1550 nm.