Patent application number | Description | Published |
20100162759 | HIGH PURITY FUSED SILICA WITH LOW ABSOLUTE REFRACTIVE INDEX - A fused silica glass article having a low absolute refractive index and low concentrations of hydroxyl groups, halogens, and metal having a low absolute refractive index. The glass article contains less than about 10 ppm protium-containing and deuterium-containing hydroxyl groups by weight and less than about 20 ppm halogens by weight. The silica glass article also has an absolute refractive index (ARI) less than or equal to 1.560820. In one embodiment, the ARI of the fused silica article is achieved by lowering the fictive temperature of the fused silica. A method of lowering the fictive temperature is also described. | 07-01-2010 |
20110043787 | PHOTOELASTIC METHOD FOR ABSOLUTE DETERMINATION OF ZERO CTE CROSSOVER IN LOW EXPANSION SILICA-TITANIA GLASS SAMPLES - The disclosure is directed to a photoelastic method for measuring the absolute Tzc of a sample of materials (transparent glass, glass-ceramic or ceramic) directly, without requiring calibration against a primary technique. The method involves subjecting the sample to a temperature gradient that generates a stress distribution pattern within the sample. When some portion of the sample is at a temperature equal to the Tzc of the material, the pattern adopts an easily identifiable shape whose measurement allows the calculation of Tzc. Silica-titania glass, which has a low thermal expansion, is used as an exemplary material. | 02-24-2011 |
20110048075 | TUNING Tzc BY THE ANNEALING OF ULTRA LOW EXPANSION GLASS - The disclosure describes a method by which the Tzc of a silica-titania glass article, for example, a EUVL mirror substrate, can be tuned to within a specification range by means of a selected final anneal that shifts Tzc of the article or substrate to the desired Tzc value. In addition, since different mirrors in a set can be specified at different values of Tzc, this process can be on used glass samples or pieces from a single glass boule to make parts with different Tzc values, thus reducing the number of separate boules required to fill an order. | 03-03-2011 |
20110092354 | SYNTHETIC SILICA GLASS WITH UNIFORM FICTIVE TEMPERATURE - A method of making a silica glass having a uniform fictive temperature. The glass article is heated at a target fictive temperature, or heated or cooled at a rate that is less than the rate of change of the fictive temperature, for a time that is sufficient to allow the fictive temperature of the glass to come within 3° C. of the target fictive temperature. The silica glass is then cooled from the target fictive temperature to a temperature below the strain point of the glass at a cooling rate that is greater than the relaxation rate of the glass at the target fictive temperature. The silica glass has a fictive temperature that varies by less than 3° C. after the annealing step. A silica glass made by the method is also described. | 04-21-2011 |
20110207592 | Low Expansivity, High Transmission Titania Doped Silica Glass - In one embodiment the present disclosure is directed to a silica-titania glass with an internal transmission of >90%/cm at wavelengths from 340 nm to 840 nm. In another embodiment the internal transmission is >93%/cm at wavelengths from 340 nm to 840 nm. In a further embodiment the internal transmission is >95%/cm at wavelengths from 340 nm to 840 nm. In another embodiment the disclosure is directed to a silica-titania glass with an overall transmission through an optic made of the glass is >84% at wavelengths from 340 nm to 840 nm. In another embodiment overall transmission through an optic made of the glass is >86% at wavelengths from 340 nm to 840 nm. In a further embodiment the overall transmission through an optic made of the glass is >88% at wavelengths from 330 nm to 840 nm. In a further embodiment the silica-titania glass has a Ti | 08-25-2011 |
20110207593 | Expansivity in Low Expansion Silica-Titania Glasses - This disclosure is directed to tailoring and improving the expansivity of low thermal expansion silica-titania glass through changes in the [OH] content and fictive temperature of the glasses. The [OH] concentration in the glass can be in the range of 600-2500 ppm. The fictive temperature, T | 08-25-2011 |
Patent application number | Description | Published |
20140155246 | VERY LOW CTE SLOPE DOPED SILICA-TITANIA GLASS - The present disclosure is directed to a doped silica-titania glass, DST glass, consisting essentially of 0.1 wt. % to 5 wt. % halogen, 50 ppm-wt. to 6 wt. % one or more oxides of Al, Ta and Nb, 3 wt. % to 10 wt. % TiO | 06-05-2014 |
20140194271 | TUNING Tzc BY THE ANNEALING OF ULTRA LOW EXPANSION GLASS - The disclosure describes a silica-titania glass having a selected titania content in the range of 5-20 wt % that has zero crossover temperature (Tzc) associated with the selected titania content withing this range, and the Tzc is adjustable by ±10° C. or less. The disclosure also describes a method by which the Tzc of a silica-titania glass article, for example, a mirror substrate, can be tuned to within a specification range by means of a selected final anneal that shifts Tzc of the article or substrate to the desired Tzc value. In addition, since different mirrors in a set can be specified at different values of Tzc, this process the method can be on used glass samples or pieces from a single glass boule to make parts with different Tzc values, thus reducing the number of separate boules required to fill an order. | 07-10-2014 |
20150080206 | ULTRALOW EXPANSION GLASS - Silica-titania glasses with small temperature variations in coefficient of thermal expansion over a wide range of zero-crossover temperatures and methods for making the glasses. The method includes a cooling protocol with controlled anneals over two different temperature regimes. A higher temperature controlled anneal may occur over a temperature interval from 750° C.-950° C. or a sub-interval thereof. A lower temperature controlled anneal may occur over a temperature interval from 650° C.-875° C. or a sub-interval thereof. The controlled anneals permit independent control over CTE slope and Tzc of silica-titania glasses. The independent control provides CTE slope and Tzc values for silica-titania glasses of fixed composition over ranges heretofore possible only through variations in composition. | 03-19-2015 |
Patent application number | Description | Published |
20090181387 | Method for Analysing Nucleic Acids - Method of analyzing nucleic acids comprising the steps of nucleic acid fractionation, adaptor binding and nucleic acid amplification, and an in vitro transcription step. The invention has application in the field of genomic analysis of organisms by the use of DNA microarrays. | 07-16-2009 |
20100022409 | METHOD OF NUCLEIC ACID ANALYSIS TO ANALYZE THE METHYLATION PATTERN - Methods and kits are disclosed for determining the methylation of nucleic acids. The methods and kits can be used for the diagnosis and prognosis of diseases. The method and kits can be used to identify biomarkers. The method and kits relate to fragmenting a nucleic acid sample, ligating adaptors to the ends of the nucleic fragments obtained, amplifying the fragments that include both adaptors using specific primers based on the adaptors, labeling of the amplified fragments by in vitro transcription and determining the methylation state of the sample. | 01-28-2010 |
20100087331 | METHOD OF NUCLEIC ACID ANALYSIS - A method of nucleic acid analysis includes the stages of synthesizing a first complementary DNA strand from a messenger RNA using compound primers, synthesizing a second DNA strand, labeling by in vitro transcription of an RNA polymerase, and determining the presence of splicing events in the sample. The present invention has application, for example, in analyzing differential splicing events and in diagnosing diseases. | 04-08-2010 |
Patent application number | Description | Published |
20080241523 | Substrate, Such As A Glass Substrate, With A Hydrophobic Surface And Improved Durability Of Hydrophobic Properties - The invention relates to a substrate of which at least one part of the surface thereof has been rendered hydrophobic and, for said purpose, has a hydrophobic surface structure consisting of an essentially-mineral silicon-containing sub-layer and an outer layer comprising a hydrophobic agent which is grafted onto said sub-layer. The invention is characterised in that the outer hydrophobic agent layer is applied to the sub-layer while the surface of the latter is in an activated state before being brought into contact with said hydrophobic agent. The invention also relates to rain-repellent glass comprising one such substrate, which is particularly suitable for use in the automobile, aviation, construction, electric household appliance and ophthalmic lens industries. | 10-02-2008 |
20090305038 | METHOD FOR FUNCTIONALISING A POLYMER FIBRE SURFACE AREA - A method of surface functionalization of an organic fiber, characterized in that a surface portion of the fibers is chemically modified using a uniform surface treatment at atmospheric pressure, in a controlled gas environment, and in that said surface portion is brought into contact with a solution comprising at least one sizing agent making it possible to improve the functionalities of said fiber. | 12-10-2009 |
20110003157 | PROCESS FOR DEPOSITING A THIN LAYER AND PRODUCT OBTAINED THEREBY - The purpose of the invention is a process for obtaining a material comprising a substrate at least part of whose surface and at least one of whose faces is based on organic compounds, the said process being implemented at atmospheric pressure comprises moreover the following stages: In the immediate vicinity of the said substrate a zone containing active species of a non-thermal plasma is created; into the said zone is injected at least one precursor of a chemical element so as to deposit upon at least one face of the said substrate (at least part of whose surface comprises an organic compound base), a first thin layer capable of protecting the said substrate against oxidation reactions, specifically those due to radicals. A further purpose of the invention is the material obtainable according to this process. | 01-06-2011 |
20110076500 | PROCESS FOR FUNCTIONALIZING A GLASS REINFORCEMENT FOR COMPOSITE MATERIAL - (EN) Process for surface functionalization of a glass reinforcement, characterized in that the said reinforcements are chemically modified by means of surface treatment by the action of a homogeneous plasma at atmospheric or sub-atmospheric pressure in a controlled, oxidizing or nitriding gas atmosphere, and in that the said surface portion is contacted with an aqueous impregnating solution of an organic or inorganic matrix, or directly with the matrix. | 03-31-2011 |
Patent application number | Description | Published |
20130305020 | VECTOR FRIENDLY INSTRUCTION FORMAT AND EXECUTION THEREOF - A vector friendly instruction format and execution thereof. According to one embodiment of the invention, a processor is configured to execute an instruction set. The instruction set includes a vector friendly instruction format. The vector friendly instruction format has a plurality of fields including a base operation field, a modifier field, an augmentation operation field, and a data element width field, wherein the first instruction format supports different versions of base operations and different augmentation operations through placement of different values in the base operation field, the modifier field, the alpha field, the beta field, and the data element width field, and wherein only one of the different values may be placed in each of the base operation field, the modifier field, the alpha field, the beta field, and the data element width field on each occurrence of an instruction in the first instruction format in instruction streams. | 11-14-2013 |
20140149724 | VECTOR FRIENDLY INSTRUCTION FORMAT AND EXECUTION THEREOF - A vector friendly instruction format and execution thereof. According to one embodiment of the invention, a processor is configured to execute an instruction set. The instruction set includes a vector friendly instruction format. The vector friendly instruction format has a plurality of fields including a base operation field, a modifier field, an augmentation operation field, and a data element width field, wherein the first instruction format supports different versions of base operations and different augmentation operations through placement of different values in the base operation field, the modifier field, the alpha field, the beta field, and the data element width field, and wherein only one of the different values may be placed in each of the base operation field, the modifier field, the alpha field, the beta field, and the data element width field on each occurrence of an instruction in the first instruction format in instruction streams. | 05-29-2014 |