Minne
Anne Minne, Etterbeek-Brussel BE
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20090000247 | Glass Wall - Glass wall ( | 01-01-2009 |
Garett Berlond Minne, Kalken BE
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20120095036 | NOVEL SUBSTITUTED INDAZOLE AND AZA-INDAZOLE DERIVATIVES AS GAMMA SECRETASE MODULATORS - The present invention is concerned with novel substituted indazole and aza-indazole derivatives of Formula (I) | 04-19-2012 |
Garrett Minne, Hemiksem BE
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20150225537 | PLASTICIZERS BASED ON MIXED ESTERS OF SUCCINATE - The present invention relates to plasticisers for use in a thermoplastic polymer. The plasticisers according to the invention comprise a succinate mixed ester of benzyl on the one part and branched nonyl or decyl on the other part. According to a preferred embodiment the molar amount of mixed ester in the plasticiser amounts to at least 30%. The invention also relates to plastisoles comprising such plasticisers. | 08-13-2015 |
Garrett Berlond Minne, Bissegem BE
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20120135981 | NOVEL SUBSTITUTED TRIAZOLE AND IMIDAZOLE DERIVATIVES AS GAMMA SECRETASE MODULATORS - The present invention is concerned with novel substituted triazole and imidazole derivatives of Formula (I) | 05-31-2012 |
20140148450 | NOVEL SUBSTITUTED INDOLE DERIVATIVES AS GAMMA SECRETASE MODULATORS - The present invention is concerned with novel substituted indole derivatives of Formula (I) wherein R | 05-29-2014 |
Mark W. Minne, Corvallis, OR US
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20080226092 | Audio method and system - A method of providing an audio signal to an audio output device may include receiving an audio signal and providing the audio signal simultaneously to audio output devices in first and second physical environments so as to appear not to emanate from an individual depicted on a display in either the first environment or the second environment. | 09-18-2008 |
Michael Minne, Voerde DE
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20100236251 | TEMPERATURE MEASURING DEVICE, GAS TURBINE HAVING A TEMPERATURE MEASURING DEVICE AND METHOD FOR DIRECTLY DETERMINING THE TEMPERATURE IN A COMBUSTION CHAMBER - A temperature measuring device is provided. The temperature measuring device measures the temperature in a combustion system, in particular for that of a combustion system of a gas turbine. The temperature measuring device is equipped with a heat absorbing element disposed in or on the combustion system, a measurement end disposed remotely from the combustion system having, disposed thereon, a temperature sensor measuring the temperature of the measurement end, a heat conducting element which connects the heat absorbing element to the measurement end in a thermally conductive manner, and a cooling device acting on the heat conducting element in a quantifiable manner for heat removal. A gas turbine having a temperature measuring device and method for directly determining the temperature in a combustion chamber are also provided. | 09-23-2010 |
Stephen Minne US
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20160018437 | CHEMICAL NANO-IDENTIFICATION OF A SAMPLE USING NORMALIZED NEAR-FIELD SPECTROSCOPY - Apparatus and method for nano-identification a sample by measuring, with the use of evanescent waves, optical spectra of near-field interaction between the sample and optical nanoantenna oscillating at nano-distance above the sample and discriminating background backscattered radiation not sensitive to such near-field interaction. Discrimination may be effectuated by optical data acquisition at periodically repeated moments of nanoantenna oscillation without knowledge of distance separating nanoantenna and sample. Measurement includes chemical identification of sample on nano-scale, during which absolute value of phase corresponding to near-field radiation representing said interaction is measured directly, without offset. Calibration of apparatus and measurement is provided by performing, prior to sample measurement, a reference measurement of reference sample having known index of refraction. Nano-identification is realized with sub-50 nm resolution and optionally, in the mid-infrared portion of the spectrum. | 01-21-2016 |
Stephen C. Minne, Santa Barbara, CA US
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20130276174 | Method and Apparatus of Electrical Property Measurement Using an AFM Operating in Peak Force Tapping Mode - An apparatus and method of collecting topography, mechanical property data and electrical property data with an atomic force microscope (AFM) in either a single pass or a dual pass operation. PFT mode is preferably employed thus allowing the use of a wide range of probes, one benefit of which is to enhance the sensitivity of electrical property measurement. | 10-17-2013 |
20140259234 | Method and Apparatus of Physical Property Measurement Using a Probe-Based Nano-Localized Light Source - An apparatus and method of performing physical property measurements on a sample with a probe-based metrology instrument employing a nano-confined light source is provided. In one embodiment, an SPM probe tip is configured to support an appropriate receiving element so as to provide a nano-localized light source that is able to efficiently and locally excite the sample on the nanoscale. Preferably, the separation between the tip apex and the sample during spectroscopic measurements is maintained at less than 10 nm, for example, using an AFM TR Mode control scheme. | 09-11-2014 |
20150067930 | Method and Apparatus of Physical Property Measurement Using a Probe-Based Nano-Localized Light Source - An apparatus and method of performing physical property measurements on a sample with a probe-based metrology instrument employing a nano-confined light source is provided. In one embodiment, an SPM probe tip is configured to support an appropriate receiving element so as to provide a nano-localized light source that is able to efficiently and locally excite the sample on the nanoscale. Preferably, the separation between the tip apex and the sample during spectroscopic measurements is maintained at less than 10 nm, for example, using an AFM TR Mode control scheme. | 03-05-2015 |
20160033547 | Method and Apparatus of Physical Property Measurement Using a Probe-Based Nano-Localized Light Source - An apparatus and method of performing physical property measurements on a sample with a probe-based metrology instrument employing a nano-confined light source is provided. In one embodiment, an SPM probe tip is configured to support an appropriate receiving element so as to provide a nano-localized light source that is able to efficiently and locally excite the sample on the nanoscale. Preferably, the separation between the tip apex and the sample during spectroscopic measurements is maintained at less than 10 nm, for example, using an AFM TR Mode control scheme. | 02-04-2016 |