Class / Patent application number | Description | Number of patent applications / Date published |
324244100 | Optical | 54 |
20080238419 | MAGNETIC FIELD MEASURING APPARATUS CAPABLE OF MEASURING AT HIGH SPATIAL RESOLUTION - A condenser lens is incorporated into the end portion of a magnetic field measuring apparatus including a magneto-optical crystal. Alternatively, the end portion of the magnetic field measuring device includes an optical fiber having a core diameter smaller than that of a normal single-mode optical fiber. | 10-02-2008 |
20080290867 | ALTERED SWEEP BELL-BLOOM MAGNETOMETER - A magnetometer is constructed wherein the sweeping is performed at one half the Larmor frequency and has as its center the absorption line. This allows the emitter to tune onto the absorption line twice per cycle as it passes through the line. This causes the increase in absorption as would the normal sweep of a Bell-Bloom magnetometer but avoids the drawbacks, such as drift and heading error. | 11-27-2008 |
20090001979 | Magnetic field measuring apparatus - Providing: quickly brining a vapor cell | 01-01-2009 |
20090102474 | FIBER LASER MAGNETIC FIELD SENSOR - The device includes two supports and a primary conductive strip. The primary conductive strip includes a neutral surface, a first side, and a second side. The primary conductive strip is connected one of directly and indirectly on the first side to the two supports such that the primary conductive strip is constrained in two dimensions and movable in one dimension. The device also includes a primary distributed feedback fiber laser. The primary distributed feedback fiber laser includes a fiber axis. The primary distributed feedback fiber laser is connected to the primary conductive strip along one of the first side and the second side such that there is a positive distance between the neutral surface of the primary conductive strip and the fiber axis of the primary distributed feedback fiber laser. | 04-23-2009 |
20090212769 | Method and system for measuring at least one property including a magnetic property of a material using pulsed laser sources - A method of measuring at least one property including a magnetic property of target material is provided. The method includes the step of generating a pump pulse train having one or more pump pulses at a repetition rate along a first propagation path, each pump pulse having a pulse energy density, a laser wavelength within a range of laser wavelengths, and a pulse duration The method further includes the step of irradiating the target material with at least a portion of the one or more pump pulses focused into at least one spot having a spot shape and size so as to cause transient perturbation in the target material. The method still further includes the step of generating at least one probe pulse train having one or more probe pulses at a repetition rate along a second propagation path, each probe pulse having a pulse energy density, a laser wavelength within a range of laser wavelengths, and a pulse duration. The method further includes the step of irradiating the target material with at least a portion of the one or more probe pulses focused into at least one spot having a spot shape and size to obtain one or more reflected probe pulses which are modulated based on the transient perturbation. The method still further includes the step of electronically controlling a time interval between a time at which the target material is irradiated by each of the focused pump pulses and a time at which the target material is irradiated by each of its corresponding focused probe pulses. The method further includes the step of detecting each modulated probe pulse to obtain one or more corresponding signals. The method still further includes the step of processing the one or more signals to obtain one or more measurement signals which represents the at least one property including the magnetic property of the target material. | 08-27-2009 |
20100148770 | MAGNETIC FIELD SENSOR WITH OPTICALLY SENSITIVE DEVICE AND METHOD FOR MEASURING A MAGNETIC FIELD - An optically sensitive device includes a material that changes dimension in response to a change in a magnetic field. In an embodiment, the optically sensitive device is configured to measure a change in a magnetic field as a function of the change of dimension of the material. | 06-17-2010 |
20100164489 | System for Detecting Nanoparticles Using Modulated Surface Plasmon Resonance - A method and system for detecting magnetic nanoparticles include measuring a magneto-optical enhancement of the plasmon absorption in the optical response. | 07-01-2010 |
20100237858 | MAGNETIC FIELD MEASUREMENT DEVICE - A magnetic field measurement device includes: a magneto-optical sensor that measures a first axial component of a magnetic field in the direction of a first axis that is arbitrarily set in the magnetic field that is to be measured; and a second magneto-optical sensor that measures a second axial component of the magnetic field in the direction of a second axis that form an angle q (009-23-2010 |
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20100259256 | APPARATUS WITH AMBIENT MAGNETIC FIELD CORRECTION - This atomic clock comprises means for applying two mutually perpendicular oscillating magnetic fields ( | 10-14-2010 |
20100271016 | Microfiber Magnetometer - A magnetometer includes a tapered microfiber having a curved portion, an excitation laser in optical communication with the tapered microfiber, and a nanocrystal attached to the curved portion of the tapered microfiber. Laser light emitted from the excitation laser interacts with the nanocrystal to create an emitted photon flux which is monitored to detect a magnetic field passing through the nanocrystal. | 10-28-2010 |
20100289488 | Optical-Magnetic Kerr Effect Waveform Testing - System and methods are provided for optical-magnetic Kerr effect signal analysis. In one aspect, a test fixture is supplied having parallel conductive lines, with an input of a first line adjacent a resistively loaded output of a second line and a resistively loaded output of the first line adjacent an input of the second line. An optically transparent test region is interposed between the conductive lines, and a metallic reflector underlies the test region. A signal reference is supplied to the input of the first line and a signal under test is supplied to the input of the second line. A light beam having a first angle of polarization is focused through the test region onto the reflector. The intensity of the reflected light is measured and the similarity between the signal under test and the reference signal can be determined in response to the measured light intensity. | 11-18-2010 |
20100308813 | HIGH SENSITIVITY SOLID STATE MAGNETOMETER - A magnetometer for sensing a magnetic field may include a solid state electronic spin system, and a detector. The solid state electronic spin system may contain one or more electronic spins that are disposed within a solid state lattice, for example NV centers in diamond. The electronic spins may be configured to receive optical excitation radiation and to align with the magnetic field in response thereto. The electronic spins may be further induced to precess about the magnetic field to be sensed, in response to an external control such as an RF field, the frequency of the spin precession being linearly related to the magnetic field by the Zeeman shift of the electronic spin energy levels. The detector may be configured to detect output optical radiation from the electronic spin, so as to determine the Zeeman shift and thus the magnetic field. | 12-09-2010 |
20100308814 | SYSTEM FOR HIGH-RESOLUTION MEASUREMENT OF A MAGNETIC FIELD/GRADIENT AND ITS APPLICATION TO A MAGNETOMETER OR GRADIOMETER - The present invention relates to a method and system for high spatial resolution measurement of a magnetic field or gradient. The method determines Zeeman polarization at a submicron distance from cell surfaces of an optical pumping cell using two laser beams. A strong pump beam produces Zeeman polarization in the vicinity of surfaces inside the optical pumping cell. The Zeeman polarization precesses around the magnetic field that is to be measured and is probed by the evanescent wave of a weak probe beam. The precessing Zeeman polarization can be monitored by measuring reflectivity of the probe beam at an interface between the active medium and the cell. The polarization can be used to measure the magnetic field or gradient. In one embodiment a second probe beam in the yz-plane is incident on the same position as the pump beam and the first probe beam that is in the xz-plane. Both probe beams undergo total internal reflection at an interface between the cell surface and the active medium. The reflectivities of the two probe beams are measured, from which the x, y and z components of the magnetic field can be determined simultaneously. | 12-09-2010 |
20100315079 | ELECTRONIC SPIN BASED ENHANCEMENT OF MAGNETOMETER SENSITIVITY - A method is disclosed for increasing the sensitivity of a solid state electronic spin based magnetometer that makes use of individual electronic spins or ensembles of electronic spins in a solid-state lattice, for example NV centers in a diamond lattice. The electronic spins may be configured to undergo a Zeeman shift in energy level when photons of light are applied to the electronic spins followed by pulses of an RF field that is substantially transverse to the magnetic field being detected. The method may include coherently controlling the electronic spins by applying to the electronic spins a sequence of RF pulses that dynamically decouple the electronic spins from mutual spin-spin interactions and from interactions with the lattice. The sequence of RF pulses may be a Hahn spin-echo sequence, a Can Purcell Meiboom Gill sequence, or a MREV8 pulse sequence, by way of example. | 12-16-2010 |
20100327861 | MAGNETIC SENSOR - A magnetic sensor is provided that measures a magnetic field. The sensor includes a first gas, a probe light source which causes first circular polarized light to be incident on the first gas, a second gas arranged on an optical path of a second circular polarized light, an AC magnetic field generator which generates an AC magnetic field and generates magnetic resonance, a bias magnetic field generator which generates bias magnetic fields with different intensities for the first gas and the second gas and differentiates the optical transmittance of the first circular polarized light in the first gas from the optical transmittance of the second circular polarized light in the second gas, and a detector which detects a light amount of the first circular polarized light and a third circular polarized light. | 12-30-2010 |
20100327862 | MAGNETIC SENSOR - A magnetic sensor that measures a magnetic field by using an optical pumping method, the magnetic sensor including: a cell that encloses therewithin atoms or ions each having a single electron in the outermost shell thereof and that is arranged inside the magnetic field; a light source that causes pulsed first linearly polarized light to be incident upon the cell; a circularly polarized light generator that converts a portion of second linearly polarized light, which is the first linearly polarized light having passed through the cell, into elliptically or circularly polarized light and causes the portion of second linearly polarized light to be incident upon the cell; and a polarimeter that detects an angle of rotation of a first polarization plane, which is polarization plane of the first linearly polarized light, and an angle of rotation of a second polarization plane, which is a polarization plane of the second linearly polarized light. | 12-30-2010 |
20110095755 | FIBER CELL, MAGNETIC SENSOR, AND MAGNETIC FIELD MEASURING APPARATUS - A fiber cell includes: an optical fiber including a cladding that totally reflects light, a core through which the totally reflected light propagates, and an internal cavity formed in the core; and an alkali metal atom sealed in the internal cavity. | 04-28-2011 |
20110101974 | MAGNETIC FIELD MEASURING APPARATUS - A beam that passes through a plurality of gas cells a number of times is led to a deflection meter from a light ejecting section, detection of a deflected surface angle is performed and a strength of a magnetic field is measured by a structure in which the plurality of the gas cells is arranged along a light beam between two reflection units or light concentrating units that have a light beam incidence section and a light beam ejecting section and are opposite to each other, and a laser beam that is incident from the light beam incidence section passes through the plurality of the gas cells and then is multiply reflected by both reflection units. | 05-05-2011 |
20110163743 | THREE-LAYER MAGNETIC ELEMENT, METHOD FOR THE PRODUCTION THEREOF, MAGNETIC FIELD SENSOR, MAGNETIC MEMORY, AND MAGNETIC LOGIC GATE USING SUCH AN ELEMENT - This three-layer magnetic element comprises, on a substrate, a first oxide, hydride or nitride layer O having a metal magnetic layer M mounted thereon, the latter having either a second oxide, hydride or nitride layer O′, or a non-ferromagnetic metal layer M′ mounted thereon. | 07-07-2011 |
20110169487 | OPTICAL FIBER TYPE MAGNETIC FIELD SENSOR - An optical fiber type magnetic field sensor having a light source, an incident side optical fiber guiding light from the light source, a polarizer linearly polarizing the light outgoing from the incident side optical fiber, a first Faraday rotator rotating polarization of the linearly polarized light by an intensity of an external magnetic field; an optical receiver, based on the polarization-rotated light, performing a photoelectric conversion to output the light as an electrical signal; a processor processing the electrical signal to output the intensity of the external magnetic field as an output voltage value; a second Faraday rotator and a permanent magnet further providing a certain non-90n degree (where n is an integer) polarization rotation angle, to a polarization rotation angle of light outgoing from the first Faraday rotator, with respect to a polarization axis of the polarizer; and a mirror. | 07-14-2011 |
20110193555 | ATOMIC MAGNETOMETER AND MAGNETIC SENSING METHOD - An atomic magnetometer includes a light source for a probe beam and a medium in which the probe beam is to be propagated. The medium is a substance which changes a polarization rotation angle of the probe beam depending on a magnetic field intensity at a first measurement position and a magnetic field intensity at a second measurement position different from the first measurement position. The atomic magnetometer directly measures a difference between the magnetic field intensity at the first measurement position and the magnetic field intensity at the second measurement position as a difference in polarization rotation angle, along a propagation path of the probe beam. | 08-11-2011 |
20110267049 | OPTICAL FIBER MAGNETO-OPTICAL DETECTING DEVICE - An optical fiber magneto-optical detecting device comprises: a light-guiding input part ( | 11-03-2011 |
20110279114 | MIXED ACTUATION PROTOCOL FOR A MAGNETIC BIOSENSOR DEVICE - The present invention provides a magnetic biosensor device comprising a sensor cartridge for receiving an assay to be tested, an electromagnetic unit for producing a magnetic field at a sensor surface of the sensor cartridge, and detection means for detecting the presence of magnetic particles close to the sensor surface. The electromagnetic unit is adapted to periodically produce a magnetic field having at least a first and a second magnetic field strength, the ratio of the amount of time of applying the first magnetic field strength to the amount of time of the period of applying the first and the second field strength being varied during the measurement. The invention further provides a method for applying a magnetic field to a sensor surface of a magnetic bio sensor device. | 11-17-2011 |
20120001625 | ULTRASENSITIVE MAGNETIC SENSOR BASED ON GIANT FARADAY ROTATION - A high-resolution sensor of magnetic field sensor system and materials for use in such a system are described. The sensor systems measure a magnetic field using inorganic and/or organic magneto-optically active materials, e.g. polymer material and have an interferometer based on Faraday rotation. The polymer material is preferably in the form of a film. The polymer material has an optical property that is sensitive to the magnetic field, e.g. the Faraday rotation effect. The present invention also provides a sensor head structure comprising the above polymer material. The sensor head may be designed for use with an optical fiber or with mirrors. In particular the present invention provides a fiber Sagnac interferometer to measure the rotation of polarized plane of light. The present invention provides a fiber or mirror based Sagnac interferometer with passive phase bias applied to magnetic field sensing. This invention has the following three major aspects each being an embodiment of the present invention: 1. Sensing material: a conjugate polymer such as polythiophene and/or a polymer containing superparamagnetic nanoparticles that exhibits a giant Faraday rotation. 2. Magnetic field probe that incorporates the above polymer or polymer/nanoparticle composite, e.g. in the form of a film. 3. Sensor: The sensor combines an optical fiber-based Sagnac interferometer and the above magnetic field probe. | 01-05-2012 |
20120086443 | Generator Operation Monitoring - A fiber optic strain and temperature sensor is disclosed. The fiber can directly measure strain and temperature or the fiber can be coated with a magnetostrictive coating to measure magnetic flux, or coated with a hydroscopic coating to measure humidity or moisture content. The optical fiber sensors can be embedded in different locations in a generator to provide real time measurement of operating conditions. | 04-12-2012 |
20120206135 | PRODUCTION METHOD OF GAS CELL, AND GAS CELL - A production method of a gas cell includes: forming a coating layer on a surface of a plate material; assembling a plurality of the plate materials having the coating layer formed thereon so as to form a cell surrounded by the surface having the coating layer formed thereon; and filling the formed cell with an alkali metal gas. | 08-16-2012 |
20120274321 | SYSTEM FOR FIBER DC MAGNETO-OPTIC DETECTION AND METHOD THEREOF - A system for fiber DC magneto-optic detection and method thereof are provided. The system comprises a power supply and signal processing module (400), an optical fiber device (200), a magneto-optic probe (100) and a reference device (300). The reference device (300) is mounted in the system, and the measured signal can be corrected via a reference magnetic field pulse signal generated by the reference device (300) so as to eliminate the influence that the environmental factors caused on the measurement, and to obtain accurate measurement data, thus improving measurement accuracy of the system. | 11-01-2012 |
20120286775 | SYSTEM AND METHOD FOR FIBER MAGNETO-OPTIC DETECTION - A system and method for fiber magneto-optic detection are provided, which belongs to the optical application field. The system comprises: a reference device ( | 11-15-2012 |
20120313634 | Magnetic Field Detection Using Faraday Effect - A magnetometer is provided for detecting a magnetic field of strength B using the Faraday effect. The magnetometer includes a photon emitter, a first polarizer, a prism, a second polarizer, a detector and an analyzer. The emitter projects an emitted light beam substantially parallel to the magnetic field and having wavelength λ. The prism has an interface surface and is composed of a Faraday medium having Verdet value V. The emitted light beam passes through the first polarizer and then the prism, exiting from the interface surface making an incident angle θ | 12-13-2012 |
20130002245 | HIGH RESOLUTION AND HIGH PRECISION VECTOR MAGNETOMETER - The present invention relates to a vector magnetometer for measuring the components of an ambient magnetic field. This vector magnetometer comprises an optically pumped scalar magnetometer ( | 01-03-2013 |
20130027030 | FIBER OPTIC MAGNETIC FLUX SENSOR FOR APPLICATION IN HIGH VOLTAGE GENERATOR STATOR BARS - A magnetic flux sensor for measuring the radial component of the magnetic flux impinging on a stator bar of a high voltage generator. The magnetic flux sensor includes a fiber Bragg grating formed in an optical fiber and enclosed within a magnetostrictive coating. The magnetostrictive coating responds to changes in magnetic flux by applying a strain on the fiber that changes the reflected wavelength of the Bragg grating that can be measured to provide a measurement of the flux. In one embodiment, one or more of the magnetic flux sensors is positioned directly within an insulating layer of the particular stator bar. | 01-31-2013 |
20130038324 | APPARATUS METHOD AND SYSTEM OF AN ULTRA SENSITIVITY OPTICAL FIBER MAGNETO OPTIC FIELD SENSOR - An apparatus and system, capable of measuring the magnitude and direction of magnetic fields including an ultra-sensitive, wideband magneto optic (MO) sensor having magneto-optic crystals is disclosed herein. The sensor exploits the Faraday Effect and is based on a polarimetric technique. An ultra sensitivity optical-fiber magneto-optic field sensor measures a magnetic field with minimal perturbation to the field, and the sensor can be used for High-power microwave (HPM) test and evaluation; Diagnosis of radar and RF/microwave devices; Detection/measurement of weak magnetic fields (e.g., magnetic resonance imaging); Characterization of very intense magnetic fields (>100 Tesla, for example rail gun characterization); Detection of very low-frequency magnetic fields; Characterization of a magnetic field over an ultra broad frequency band (DC—2 GHz); Submarine detection; and Submarine underwater communication. | 02-14-2013 |
20130088223 | TWO-CORE OPTICAL FIBER MAGNETIC FIELD SENSOR - A two-core optical fiber magnetic field sensor is configured from at least a light incidence/emission unit; a lens; a magnetic garnet; and a reflector, wherein the lens and the magnetic garnet are disposed between the light incidence/emission end of the light incidence/emission unit and the reflector; a light beam is emitted from one optical fiber; the light beam is reflected by the reflector after being transmitted through the lens and the magnetic garnet; the light beam is transmitted again through the magnetic garnet and the lens after the reflection; and incident on the other optical fiber, the light beam is emitted again from the other optical fiber, and reflected by the reflector after being transmitted through the lens and the magnetic garnet; and the light beam is transmitted again through the magnetic garnet and the lens after the reflection and incident again on the one optical fiber. | 04-11-2013 |
20130093419 | METHOD AND APPARATUS FOR DETERMINING THERMAL MAGNETIC PROPERTIES OF MAGNETIC MEDIA - An apparatus and method of testing a magnetic medium at temperatures of interest is disclosed. Properties of the magnetic medium are determined by focusing light from a source of polarized light on a magnetic surface of the magnetic medium; measuring polarization of resulting reflected light due to the magneto-optical Kerr effect, using, for example a measuring subsystem; and varying the light source to heat the magnetic material where incident to pre-defined temperatures, thereby allowing determination of the magnetic properties using the magneto-optical Kerr effect at said pre-defined temperatures. | 04-18-2013 |
20130154632 | Magnetic Field Detector - There is provided a system ( | 06-20-2013 |
20130193961 | SYSTEM AND METHOD FOR MEASURING PERTURBATIONS USING A SLOW-LIGHT FIBER BRAGG GRATING SENSOR - An optical device, a method of configuring an optical device, and a method of using a fiber Bragg grating is provided. The optical device includes a fiber Bragg grating, a narrowband optical source, and at least one optical detector. The fiber Bragg grating has a power transmission spectrum as a function of wavelength with one or more resonance peaks, each comprising a local maximum and two non-zero-slope regions with the local maximum therebetween. The light generated by the narrowband optical source has a wavelength at a non-zero-slope region of a resonance peak that is selected such that one or more of the following quantities, evaluated at the resonance peak, is at a maximum value: (a) the product of the group delay spectrum and the power transmission spectrum and (b) the product of the group delay spectrum and one minus the power reflection spectrum. | 08-01-2013 |
20130207649 | OPTICALLY PUMPED MAGNETOMETER AND MAGNETIC SENSING METHOD - An optically pumped magnetometer and a magnetic sensing method acquire information as to strengths of magnetic fields in two different directions. A pump light having a circularly polarized component, first probe light having a liner polarized component and second probe light having a linearly polarized component are emitted to a cell containing a group of alkali metal atoms so as to form a crossing region A magnetic field applying unit applies a static magnetic field in a direction of the pump light incident on the crossing region during the emission of the pump light, the first probe light and the second probe light. And, information as to strengths of magnetic fields in two different directions perpendicular to the direction of the static magnetic field in the cell from the rotation angles of a polarization planes of the first and second probe lights during passage through the cell is calculated. | 08-15-2013 |
20130214773 | GAS CELL AND MAGNETIC FIELD MEASURING APPARATUS - A gas cell used for a magnetocardiograph that measures a magnetic field generated from a living body (magnetocardiography) and a magnetoencephalograph that measures a magnetic field generated from a brain (magnetoencephalography). | 08-22-2013 |
20140070802 | ULTRASENSITIVE MAGNETIC SENSOR WITH MAGNETO-OPTICALLY ACTIVE MATERIAL WITH HIGH VERDET CONSTANT - A high-resolution sensor of magnetic field sensor system and materials for use in such a system are described. The sensor systems measure a magnetic field using inorganic and/or organic magneto-optically active materials, e.g. polymer material and have an interferometer based on Faraday rotation. The polymer material is preferably in the form of a film. The polymer material has an optical property that is sensitive to the magnetic field, eg the Faraday rotation effect. The present invention also provides a sensor head structure comprising the above polymer material. The sensor head may be designed for use with an optical fiber or with mirrors In particular the present invention provides a fiber Sagnac interferometer to measure the rotation of polarized plane of light. The present invention provides a fiber or mirror based Sagnac interferometer with passive phase bias applied to magnetic field sensing. | 03-13-2014 |
20140103919 | MAGNETO-OPTIC SURFACE - A magneto-optic surface includes a support; at least two moving elements; each of the moving elements including at least one anchoring point to the support and at least one moving part movable with respect to the support, the moving part including at least one magnetic part; the support and the moving elements being laid out in such a way that under the effect of an external magnetic field, at least one of the moving elements moves with respect to the support such that the optical properties of the magneto-optic surface are modified. | 04-17-2014 |
20140132256 | CURRENT SENSORS USING MAGNETOSTRICTIVE MATERIAL - A current sensor device. The current sensor device includes a strain distribution converter; an optical fiber coupled with the strain distribution converter; and a magnetostrictive material associated with the strain distribution converter such that a change in shape of the magnetostrictive material causes a change in length of the optical fiber. | 05-15-2014 |
20140159715 | Portal Monitoring - The present invention relates to a portal monitoring system that uses distributed sensing to detect metallic objects passing through the portal. The system comprises a length of fibre optic ( | 06-12-2014 |
20140184213 | IN-PLANE SENSING LORENTZ FORCE MAGNETOMETER - A magnetic field sensor includes a driving element through which an electric current circumnavigates the driving element. A Lorentz force acts on the driving element resulting in a torque about a first axis in response to a magnetic field along a second axis substantially parallel to a plane of a substrate. The driving element is coiled-shaped. A sensing element of the magnetic field sensor is configured to rotate about the first axis substantially parallel to the plane of the substrate in response to the magnetic field and a coupling element mechanically couples the driving element to the sensing element. The driving element, the sensing element, and the coupling element are disposed in the plane, substantially parallel to the substrate. At least two anchors are configured to connect the driving element, the sensing element, and the coupling element to the substrate. | 07-03-2014 |
20140197826 | DUAL PURPOSE ATOMIC DEVICE FOR REALIZING ATOMIC FREQUENCY STANDARD AND MAGNETIC FIELD MEASUREMENT - A dual purpose atomic device (DAD) for realizing atomic frequency standard and/or magnetic field measurement based on a hybrid technique comprising of enhanced transmission and polarization rotation by the CPT states is invented. The dual purpose atomic device for realizing atomic frequency standard and/or magnetic field measurement basically involving means for generating bi-chromatic field to facilitate the creation of CPT state in an atomic cell and stabilizing the frequency difference among the said bi-chromatic field to the center of the CPT resonance and thereby realizing atomic frequency standard and/or means for monitoring and analyzing transmitted polarization rotation signal from the CPT enabled atomic gas in a sample cell for measuring magnetic field without scanning the radiofrequency oscillator. | 07-17-2014 |
20140306700 | MAGNETIC FIELD MEASURING APPARATUS AND METHOD FOR MANUFACTURING SAME - In order to provide a magnetic field measuring apparatus facilitating the pressure control in a gas cell, or capable of inspecting the internal pressure of the gas cell without using any special process, the magnetic field measuring apparatus is configured such that a process layer of the magnetic field measuring apparatus has such a structure that includes a first hollow portion and a second hollow portion provided opposed to first hollow portion with a first isolation wall interposed therebetween. Alternatively, a method for manufacturing the magnetic field measuring apparatus includes breaking the first isolation wall after generating alkali metal (FIG. | 10-16-2014 |
20140320123 | OPTICAL PUMPING MAGNETOMETER AND MAGNETIC SENSING METHOD - An optical pumping magnetometer is provided that is capable of improving the response of the magnetometer with respect to a magnetic field that varies with a period shorter than the transverse relaxation time of electron spin of an alkali metal atom. | 10-30-2014 |
20140354275 | ATOMIC MAGNETOMETRY USING PUMP-PROBE OPERATION AND MULTIPASS CELLS - A magnetometer for use with a sample including an atomic vapor is disclosed. The magnetometer includes a cell containing the sample such as a multipass cell including a first mirror element and a second mirror element configured so that an incoming light beam injected into the container will reflect multiple times between the first mirror element and the second mirror element. A polarized pump light source is configured to transmit pump light through the cell and pump the sample. A polarized probe light source configured to transmit probe light through the cell and probe the sample. A detector configured to detect a polarization angle or intensity of the probe light transmitted through the sample. A processor may be configured to calculate a precession frequency of the sample based on a first probe light pulse and a frequency correction based on a second probe light pulse. | 12-04-2014 |
20150015248 | CURRENT SENSOR AND ELECTRIC POWER CONVERTER - An art of measuring a current with a suppressed influence of a switching noise is provided. The art disclosed by the present specification is a current sensor that measures an output current of a switching circuit. The current sensor is equipped with a magneto-optical element that is arranged at a current measurement point, a light source that radiates light onto the magneto-optical element, and a light receiver that receives transmitted light or reflected light of the magneto-optical element. The light source radiates light in synchronization with a carrier signal of the switching circuit. Light is radiated in synchronization with the carrier signal, and a current is measured with the aid of the light. Due to synchronization with the carrier signal, the current can be measured at timings other than a switching timing resulting from a PWM signal that is generated on the basis of the carrier signal. | 01-15-2015 |
20150115948 | MAGNETIC FIELD MEASURING APPARATUS - A beam that passes through a plurality of gas cells a number of times is led to a deflection meter from a light ejecting section, detection of a deflected surface angle is performed and a strength of a magnetic field is measured by a structure in which the plurality of the gas cells is arranged along a light beam between two reflection units or light concentrating units that have a light beam incidence section and a light beam ejecting section and are opposite to each other, and a laser beam that is incident from the light beam incidence section passes through the plurality of the gas cells and then is multiply reflected by both reflection units. | 04-30-2015 |
20150123653 | LIGHT DIVIDER AND MAGNETISM MEASUREMENT APPARATUS - A light divider includes a light guide having a first surface and a second surface that reflect light incident on the light guide, the light guide causing the light to propagate through a portion between the first surface and the second surface, light dividing films that are provided in the light guide and so characterized that the light dividing films not only reflect but also transmit the light, and a plurality of light extracting portions that are provided on the first surface and allow light fluxes that the light dividing films have transmitted to exit through the first surface. | 05-07-2015 |
20150377984 | PRODUCTION METHOD OF GAS CELL, AND GAS CELL - A production method of a gas cell includes: forming a coating layer on a surface of a plate material; assembling a plurality of the plate materials having the coating layer formed thereon so as to form a cell surrounded by the surface having the coating layer formed thereon; and filling the formed cell with an alkali metal gas. | 12-31-2015 |
20160025822 | GAS CELL AND MAGNETIC MEASURING APPARATUS - A gas cell includes: a cell main body; a first wall portion defining an interior space serving as a main chamber in the cell main body; an auxiliary chamber storing an alkali metal; a second wall portion defining the auxiliary chamber connected with the main chamber in the cell main body; and a heater covering the first wall portion and vaporizing the alkali metal. The second wall portion is thicker than the first wall portion. | 01-28-2016 |
20160097824 | METHOD FOR MANUFACTURING MAGNETISM MEASUREMENT DEVICE, METHOD FOR MANUFACTURING GAS CELL, MAGNETISM MEASUREMENT DEVICE, AND GAS CELL - A method for manufacturing a magnetism measurement device which measures a magnetic field generated from a living body, includes: arranging an ampoule made of borosilicate glass and having a hollow part filled with a solid alkali metal, in a void in a cell section made of quartz glass, and then sealing the cell section; and casting a pulse laser beam on the ampoule through the cell section and thus forming a penetration hole in the ampoule. The pulse laser beam has an energy of 20 μJ/pulse to 200 μJ/pulse. The absorption coefficient of quarts glass for the pulse laser beam is lower than the absorption coefficient of borosilicate glass for the pulse laser beam. | 04-07-2016 |
20160131723 | MAGNETIC FIELD MEASUREMENT METHOD AND MAGNETIC FIELD MEASUREMENT DEVICE - A light source unit irradiates a gas cell disposed in a measurement region with linearly polarized light in which the direction of travel is a z-axis direction and the vibration direction of an electric field is a y-axis direction. A polarimeter detects optical characteristics of light passing through the gas cell. A magnetic field generator applies an artificial magnetic field, capable of varying an x-axis component, a y-axis component, and a z-axis component, to the measurement region. A calculation control unit generates a plurality of artificial magnetic fields, calculates a magnetization value or a value corresponding to the magnetization value on the basis of the detection results of the polarimeter, and calculates an original magnetic field present in the measurement region, using an artificial magnetic field when the magnetization value or the value corresponding to the magnetization value satisfies a condition for external value. | 05-12-2016 |