| Science & Engineering Services, Inc. Patent applications |
| Patent application number | Title | Published |
|---|
| 20110251801 | SPECTRAL DECONVOLUTION IN ION CYCLOTRON RESONANCE MASS SPECTROMETRY - A method and system for deconvolution of a frequency spectrum obtained in an ICR mass spectrometer based on a detection of ion oscillation overtones of the M-th order (where the integer M>1). A plurality of frequency peaks is collected within the frequency spectrum corresponding respectively to oscillations of different groups of ions, and associates at least one of the frequency peaks having a frequency f and a measured amplitude A with a particular group of the ions. The method and system identify whether the frequency peak is related to one of an overtone frequency, a subharmonic frequency, a higher harmonic frequency, or a side-shifted frequency of the oscillations of the different group of ions. The method and system derive calculated amplitudes of the overtone frequency peaks associated with the groups of ions by incorporating measured amplitudes of the frequency peaks related to the subharmonic frequency, the higher harmonic frequency, or the side-shifted frequency associated with the groups of ions into the calculated amplitudes of the overtone frequency peaks. The method and system generate a deconvoluted frequency spectrum including the overtone frequency peaks associated with the different groups of ions. | 10-13-2011 |
| 20110248159 | Ion cyclotron resonance mass spectrometer system and a method of operating the same - A measuring cell of an ICR mass spectrometer and a method of operating a measuring cell of the ICR mass spectrometer. The method and system trap ions in a first compartment of the ICR measuring cell by generating an electric potential well in the direction of the magnetic field with a minimum of the electric potential well located inside the first compartment. The method and system excite cyclotron motion of the ions trapped in the first compartment. The method and system transfer at least a part of the excited ions from the first compartment to a second compartment of the ICR measuring cell by displacement of a position of the minimum of the electric potential well from the first compartment to the second compartment. The ions are transferred by displacing the position of the minimum of the electric potential well from the first compartment to the second compartment preferably over a period of time equal to or longer than a characteristic period of ion oscillations along the direction of the magnetic field in the electric potential well. The method and system detect ion cyclotron motion of at least a part of the ions in the second compartment. | 10-13-2011 |
| 20110224104 | METHOD AND SYSTEM FOR INDENTIFICATION OF MICROORGANISMS - A method and system for identification of microorganisms in a sample. The method includes processing the sample to produce at least one group of biomarker molecules from at least one microorganism in the sample, tandem mass-analyzing biomarker fragment ions from the at least one group of biomarker molecules to obtain a sample biomarker tandem mass spectrum of the biomarker, and identifying the microorganism in the sample based on a comparison of the sample biomarker tandem mass spectrum to an experimentally-derived reference tandem mass spectrum (stored in the reference library) from a known microorganism. The system includes a sample processing unit configured to process the sample and produce at least one group of biomarker molecules from at least one microorganism in the sample. The system includes a mass-analyzer for tandem mass analysis biomarker fragment ions. The system includes a processor configured to identify the microorganism in the sample based on a comparison of a sample biomarker tandem mass spectrum to an experimentally-derived reference tandem mass spectrum from a known microorganism. | 09-15-2011 |
| 20100288920 | METHOD AND APPARATUS FOR ION FRAGMENTATION IN MASS SPECTROMETRY - A method for fragmentation of analyte ions for mass spectroscopy and a system for mass spectroscopy. The method produces gas-phase analyte ions, produces gas-phase odd-electron containing species separately from the analyte ions, and mixes the gas-phase analyte ions and the odd-electron containing species at substantially atmospheric pressure conditions to produce fragment ions prior to introduction into a mass spectrometer. The system includes a gas-phase analyte ion source, a gas-phase odd-electron containing species source separate from the gas-phase analyte ion source, a mixing region where the gas-phase analyte ions and the odd-electron containing species are mixed at substantially atmospheric pressure to produce fragment ions of the analyte ions, a mass spectrometer having an entrance where at least a portion of the fragment ions are introduced into a vacuum of the mass spectrometer, and a detector in the mass spectrometer which determines a mass to charge ratio analysis of the fragment ions. | 11-18-2010 |
| 20100163733 | AIRBORNE TUNABLE MID-IR LASER GAS-CORRELATION SENSOR - A method and apparatus for measuring target gas concentrations in an atmosphere. The method and apparatus emit in the atmosphere a laser beam tuned to a molecular absorption line of a target gas, receive a reflected signal affected by gas absorption of the target gas in the atmosphere, divide and direct the received signal into a first optical path and a second optical path including in one of the paths a correlation gas cell filled with a predetermined concentration of the target gas, detect transmitted signals through the first optical path and the second optical path, and calculate a target gas concentration by comparing a first signal transmitted through the first optical path to a second signal transmitted through the second optical path. The apparatus includes a laser source tunable to a specific molecular absorption line of a target gas and configured to emit in the atmosphere a laser beam having a spectral bandwidth greater than a full width of the molecular absorption line of the target gas, a receiver configured to receive a reflected signal affected by gas absorption of the target gas in the atmosphere, and at least one detector configured to detect transmitted signals through the first optical path and the second optical path. | 07-01-2010 |
| 20100006760 | Ultraviolet lidar for detection of biological warfare agents - A system and method for detecting airborne agents. The system includes a semiconductor ultraviolet optical source configured to emit an ultraviolet light, a controller configured to generate a pseudo-random code for emission of the ultraviolet light modulated at the pseudo-random code, a telescope configured to focus the ultraviolet light to a distance from the source and to receive elastically backscattered signals and fluorescence signals from the distance, and a sensor configured to detect the elastically backscattered and fluorescence signals. The method generates a pseudo-random code and emits at least one wavelength of ultraviolet light modulated at the pseudo-random code, transmits the modulated ultraviolet light pulses to a distance from the source, receives elastically backscattered signals and fluorescence signals from the distance, and detects the elastically backscattered and fluorescence signals. | 01-14-2010 |
| 20090152458 | METHOD AND APPARATUS FOR ION FRAGMENTATION IN MASS SPECTROMETRY - A method for fragmentation of analyte ions for mass spectroscopy and a system for mass spectroscopy. The method produces gas-phase analyte ions, produces gas-phase radical species separately from the analyte ions, and mixes the gas-phase analyte ions and the radical species at substantially atmospheric pressure conditions to produce fragment ions prior to introduction into a mass spectrometer. The system includes a gas-phase analyte ion source, a gas-phase radical species source separate from the gas-phase analyte ion source, a mixing region where the gas-phase analyte ions and the radical species are mixed at substantially atmospheric pressure to produce fragment ions of the analyte ions, a mass spectrometer having an entrance where at least a portion of the fragment ions are introduced into a vacuum of the mass spectrometer, and a detector in the mass spectrometer which determines a mass to charge ratio analysis of the fragment ions. | 06-18-2009 |
| 20090001263 | ON-PROBE SAMPLE CLEANUP SYSTEM AND METHOD FOR MALDI ANALYSIS - A system and method for cleanup of biological samples from contaminants prior to spectroscopy analysis. The system includes a support configured to hold a sample including a liquid having at least one group of biological molecules with a surface of the support binding the molecules at a surface tension angle to the liquid of less than 180 degrees. The system includes an evaporator configured to evaporate liquid from the support, a solvent applicator configured to apply a solvent for dissolution of the contaminants in the sample, and a solvent removal device configured to remove applied solvent from the sample and thereby at least partially remove the contaminants. | 01-01-2009 |
| 20080259340 | AIRBORNE TUNABLE MID-IR LASER GAS-CORRELATION SENSOR - A method and apparatus for measuring target gas concentrations in an atmosphere. The method and apparatus emit in the atmosphere a laser beam tuned to a molecular absorption line of a target gas, receive a reflected signal affected by gas absorption of the target gas in the atmosphere, divide and direct the received signal into a first optical path and a second optical path including in one of the paths a correlation gas cell filled with a predetermined concentration of the target gas, detect transmitted signals through the first optical path and the second optical path, and calculate a target gas concentration by comparing a first signal transmitted through the first optical path to a second signal transmitted through the second optical path. The apparatus includes a laser source tunable to a specific molecular absorption line of a target gas and configured to emit in the atmosphere a laser beam having a spectral bandwidth greater than a full width of the molecular absorption line of the target gas, a receiver configured to receive a reflected signal affected by gas absorption of the target gas in the atmosphere, and at least one detector configured to detect transmitted signals through the first optical path and the second optical path. | 10-23-2008 |
