Patent application number | Description | Published |
20080210873 | ANALYSIS APPARATUS AND ANALYSIS METHOD - An analysis apparatus and analysis method are provided for obtaining information on a sample from change in propagation state of a magnetic wave caused thereby, with less influence of frequency characteristics on the detection unit side. The analysis apparatus comprises a generating unit for generating a terahertz wave, a signal-making unit for making a code pattern, a delaying unit for delaying the code pattern produced by the signal-making unit, a band-diffusing unit for diffusing a band of the terahertz wave by modifying the phase of the terahertz wave generated by the generating unit in accordance with the code pattern produced by the signal-making unit, a detecting unit for detecting the terahertz wave, and a band-restoring unit for restoring the band by modulating the phase of the terahertz wave in accordance with the code pattern being output from the delaying unit before detection by the detecting unit. | 09-04-2008 |
20080217536 | IMAGE FORMING APPARATUS - An image forming apparatus includes an electromagnetic wave radiating portion, an electromagnetic wave detecting portion, a driving portion, a periodical signal generating portion for generating plural periodical signals, a memory portion, a processing portion, and an image forming portion. The driving portion changes the relative positional relationship between an object and the radiating portion. The detecting portion acquires transmitted or reflected wave from the object, as a time-series detection signal. The processing portion executes a process of multiplying the detection signals of the areas of the object with the periodical signals, and a process of adding the multiplied results and causing the memory portion to store the added results. The image forming portion forms an image of at least a portion of the object, based on information stored in the memory portion corresponding to the periodical signals, after the acquisition of the time-series detection signal, and the processes executed by the processing portion are repeated plural times for the areas of the object. | 09-11-2008 |
20080224071 | INSPECTION APPARATUS - The invention is to provide an inspection apparatus causing interactions of plural times between an object and an electromagnetic wave, thereby enabling inspection with a satisfactory sensitivity even for an object of a trace amount. The inspection apparatus detects information from an object 112 based on a change in an electromagnetic wave transmission state caused by plural times of interactions between the electromagnetic wave and the object 112. The inspection apparatus includes a transmission line 16, an electromagnetic wave supplying and detecting unit 111 for supplying the transmission line 16 with the electromagnetic wave and detecting the electromagnetic wave, a reflection unit 110 for reflecting the electromagnetic wave transmitting through the transmission line 16, and an inspection unit 113 for placing the object 112 between the electromagnetic wave supplying and detecting unit 111 and the reflection unit 110, wherein the transmission line 16, the reflection unit 110 and the inspection unit 113 are formed on a same substrate 11. | 09-18-2008 |
20080315098 | PHOTOCONDUCTIVE ELEMENT FOR GENERATION AND DETECTION OF TERAHERTZ WAVE - A photoconductive element for generating or detecting a terahertz wave comprises a carrier generation layer for generating carriers on light irradiation, a pair of conductive electrodes provided in opposition on one face of the carrier generation layer, each containing a strip line, a pair of conductive antennas placed in opposition with a gap for light irradiation onto the carrier generation layer, each being joined to the electrodes, a pair of conductive adjusting stubs for adjusting a propagation state of the terahertz wave generated or detected by the carriers, wherein each of the adjusting stubs has a length of not longer than the wavelength λ of the terahertz wave generated by the carriers, and is placed at a distance of not more than the wavelength λ from a joint between the antenna and the electrode. | 12-25-2008 |
20090059205 | APPARATUS AND METHOD FOR OBTAINING INFORMATION RELATED TO TERAHERTZ WAVES - To provide an apparatus capable obtaining a temporal waveform of terahertz waves transmitted through or reflected by a sample in a set region. A delay unit is configured to change a timing at which the detection unit detects terahertz waves transmitted through or reflected by a sample, which is originated from terahertz waves generated by a generation unit. A waveform obtaining unit is configured to obtain a temporal waveform of the transmitted terahertz waves which are obtained by using the delay unit. The delay unit, of which more than one may be used, is controlled so that the detection unit detects the transmitted terahertz waves in an area related to the temporal waveform set on the basis of information related to the sample that is pre-stored in the storage unit. Then, a temporal waveform of the transmitted terahertz waves in the area is obtained. | 03-05-2009 |
20090146084 | ELECTROMAGNETIC WAVE GENERATING DEVICE, ELECTROMAGNETIC WAVE INTEGRATED DEVICE, AND ELECTROMAGNETIC WAVE DETECTOR - A transmission line for propagating a terahertz wave generated based on a carrier generated in a carrier generation layer includes a first region in which the terahertz wave propagates in a first direction and a second region having a different impedance compared to the first region and forming a reflection interface with respect to a terahertz wave which propagates opposite to the first direction. The transmission line is formed so that a distance from an irradiation location at which light is irradiated to the carrier generation layer to the reflection interface is smaller than D, where D is a distance converted from a half width of a time waveform of a terahertz wave which propagates in the first direction without passing through the reflection interface. Accordingly, a terahertz wave can be made to propagate with energetic efficiency, to a direction the terahertz wave is required to propagate. | 06-11-2009 |
20090189078 | INSPECTION APPARATUS AND INSPECTION METHOD BY USING TERAHERTZ WAVE - An inspection apparatus includes a terahertz wave detection portion, a waveform shaping portion configured to shape a first answer signal with respect to a terahertz wave by using a signal acquired in the above-described terahertz wave detection portion, a measurement condition acquisition portion configured to acquire a first measurement condition, an answer signal storage portion configured to store second answer signals corresponding to measurement conditions, a selection portion configured to select the above-described second answer signal from the above-described answer signal storage portion, and a signal processing portion configured to conduct deconvolution with respect to the above-described first answer signal on the basis of the above-described second answer signal. | 07-30-2009 |
20090231571 | APPARATUS AND METHOD FOR OBTAINING INFORMATION RELATED TO TERAHERTZ WAVES - To provide an apparatus capable obtaining a temporal waveform of terahertz waves transmitted through or reflected by a sample in a set region. A delay unit is configured to change a timing at which the detection unit detects terahertz waves transmitted through or reflected by a sample, which is originated from terahertz waves generated by a generation unit. A waveform obtaining unit is configured to obtain a temporal waveform of the transmitted terahertz waves which are obtained by using the delay unit. The delay unit, of which more than one may be used, is controlled so that the detection unit detects the transmitted terahertz waves in an area related to the temporal waveform set on the basis of information related to the sample that is pre-stored in the storage unit. Then, a temporal waveform of the transmitted terahertz waves in the area is obtained. | 09-17-2009 |
20090236529 | DETECTING APPARATUS, AND DETECTING METHOD - A detecting apparatus for detecting information of a liquid object or sample includes a transmission path, a THz wave supplying unit, a THz wave detecting unit, and an infiltrative holding member for infiltration and holding of a liquid object. The supplying unit supplies an electromagnetic wave in a frequency range between 30 GHz and 30 THz to the transmission path. The detecting unit detects the THz wave transmitted through the transmission path. The infiltrative holding member is set at a location containing at least a portion in which an electric field distribution of the THz wave propagating along the transmission path extends. | 09-24-2009 |
20090267858 | ANTENNA DEVICE - An antenna device for operating in a predetermined frequency band has a resonator section, a semiconductor section and an antenna section. The resonator section includes a first conductor section, a dielectric section, and a second conductor section for specifying a reference potential against each section which is arranged so as to oppose the first conductor section through the dielectric section. A semiconductor section is arranged so as to be sandwiched between the first conductor section and the second conductor section. The antenna section uses the second conductor section as a grounding conductor, is substantially spherical, makes at least its surface electroconductive, and is arranged on the first conductor section. | 10-29-2009 |
20100006758 | IMAGE FORMING APPARATUS - An image forming apparatus includes an electromagnetic wave radiating portion, an electromagnetic wave detecting portion, a driving portion, a periodical signal generating portion for generating plural periodical signals, a memory portion, a processing portion, and an image forming portion. The driving portion changes the relative positional relationship between an object and the radiating portion. The detecting portion acquires transmitted or reflected wave from the object, as a time-series detection signal. The processing portion executes a process of multiplying the detection signals of the areas of the object with the periodical signals, and a process of adding the multiplied results and causing the memory portion to store the added results. The image forming portion forms an image of at least a portion of the object, based on information stored in the memory portion corresponding to the periodical signals, after the acquisition of the time-series detection signal, and the processes executed by the processing portion are repeated plural times for the areas of the object. | 01-14-2010 |
20100044597 | TERAHERTZ WAVE GENERATING DEVICE AND APPARATUS USING THE SAME - Provided is a terahertz wave optical device that can be used as a terahertz wave generating device including: an optical switch portion for generating a carrier abruptly by irradiation with excitation light; and a first electrode portion and a second electrode portion that are disposed so as to be opposed to each other with the optical switch portion therebetween so as to apply an electric field in a thickness direction of the optical switch portion. The first electrode portion includes, at least in part, an antenna portion having an antenna function of distributing the carrier generated by the irradiation with the excitation light in a direction crossing an application direction of the electric field. With the terahertz wave optical device, a step for adjusting the incident angle of the excitation light is simplified. | 02-25-2010 |
20100187420 | MEASURING APPARATUS USING TERAHERTZ WAVE - A measuring apparatus measures a time-domain waveform of THz wave pulse by time-domain spectroscopy. The apparatus includes a detector for detecting THz wave pulse containing a signal component at frequency fs, a small signal detector for detecting the signal component at frequency fs of a signal supplied from the detecting portion, with a time constant τ, and an integrator. The integrator is connected to an output stage of the small signal detector to integrate signals supplied from the small signal detector, and has a time constant below the time constant τ and over 1/(2 | 07-29-2010 |
20100252738 | INSPECTION APPARATUS AND INSPECTION METHOD USING ELECTROMAGNETIC WAVE - An apparatus for acquiring information on a time waveform of a terahertz wave is comprised of a terahertz wave-generating unit, a waveform information-detecting unit, and a delay unit for changing the time after the terahertz wave is generated in the generating unit until it is detected as waveform information of the terahertz wave in the detecting unit, wherein the delay unit is configured so as to change a propagating distance of the terahertz wave generated by the generating unit, and associates waveform information of the terahertz wave, which is detected in the detecting unit, and the propagating distance every terahertz wave generated by the generating unit. | 10-07-2010 |
20100258727 | WAVEFORM INFORMATION ACQUISITION APPARATUS AND WAVEFORM INFORMATION ACQUISITION METHOD - Provided are an apparatus and a method which enable acquisition of a temporal waveform of a propagating terahertz wave by changing a propagation velocity of the terahertz wave. A waveform information acquisition apparatus includes a generation portion for generating a terahertz wave, a propagation portion for allowing the terahertz wave generated by the generation portion to propagate therethrough, a detection portion for detecting waveform information of the terahertz wave, a first delay portion for changing a propagation velocity of the terahertz wave, and a control portion for controlling the first delay portion to change the propagation velocity of the terahertz wave in the propagation portion, and acquires information regarding the temporal waveform of the terahertz wave detected by the detection portion. | 10-14-2010 |
20100288928 | APPARATUS AND METHOD FOR MEASURING TERAHERTZ WAVE - An apparatus for measuring a terahertz wave includes a dispersing section | 11-18-2010 |
20100308223 | APPARATUS AND METHOD FOR ACQUIRING TIME WAVEFORM OF TERAHERTZ WAVES - A method for acquiring an accurate time waveform of terahertz waves includes: acquiring a first time waveform by using a first delay portion with a first difference in length of the optical paths in the second delay portion, using a second delay portion to change the first difference in length of the optical paths to a second difference in length of the optical paths that is different from the first difference in length of the optical paths, acquiring a second time waveform by using the first delay portion with the second difference in length of the optical paths, adjusting the acquired first and second time waveforms in accordance with a predetermined differences in length of the optical paths based on the first and second differences in length of the optical paths, and averaging the first and second time waveforms according to the predetermined difference in length of the optical paths. | 12-09-2010 |
20110241699 | DETECTING APPARATUS AND IMAGING APPARATUS - A detection apparatus and an imaging apparatus are capable of accurately conducting non-destructive observation of a target by using an incoherent electromagnetic wave. The detection apparatus has a generating section, a first coupler section, a delaying section, a second coupler section and a signal processing section. The generating section | 10-06-2011 |
20110272579 | ANALYZING APPARATUS - An analyzing apparatus includes a first optical unit that causes a terahertz wave generated by a generation unit to be condensed at a first position in an object; a second optical unit that causes the terahertz wave from the object to be condensed at a second position; a third optical unit that causes the terahertz wave condensed at the second position to be condensed at a third position; and a detection unit that detects the terahertz wave condensed at the third position. The analyzing apparatus selectively detects the terahertz wave from the first position in the object from among terahertz waves from the object. | 11-10-2011 |
20110284748 | APPARATUS AND METHOD OF MEASURING TERAHERTZ WAVE - A time-domain waveform of a terahertz wave is measured by a method based on time-domain spectroscopy by using an optical delay unit to adjust an optical path length along which excitation light propagates thereby adjusting a difference between a time at which the excitation light arrives at a generating unit configured to generate the terahertz wave and a time at which the excitation light arrives at a detection unit configured to detect the terahertz wave. The optical delay unit is driven according to a first speed pattern to acquire a first time-domain waveform. The optical delay unit is then driven according to a second speed pattern different from the first speed pattern to acquire a second time-domain waveform. The first time-domain waveform and the second time-domain waveform are averaged. | 11-24-2011 |
20110285383 | METHOD OF MEASURING TERAHERTZ WAVE AND APPARATUS THEREFOR - In a measurement of a time-domain waveform of a terahertz wave based on time-domain spectroscopy, a current signal including a component originating from the terahertz wave is detected using a photoconductive device, and a voltage signal corresponding to the detected current signal is detected. At a pre-processing stage before the voltage signal detection, an offset current included in the detected current signal and having no relation to the terahertz wave is drawn. The offset current is monitored and the magnitude of the drawn offset current is adjusted according to a result of the monitoring. A time-domain waveform of the terahertz wave is acquired based on the voltage signal detected while drawing the offset current. The monitoring of the offset current and the adjusting of the offset current are performed in a waiting state in which measurement of the time-domain waveform of the terahertz wave is not performed. | 11-24-2011 |
20120032081 | TERAHERTZ-WAVE DEVICE, METHOD OF GENERATING AND DETECTING TERAHERTZ-WAVES WITH THE DEVICE, AND IMAGING APPARATUS EQUIPPED WITH THE DEVICE - A terahertz-wave generating device including an optical waveguide containing an electrooptic crystal includes: first and second optical waveguides through which first and second light beams respectively propagate; a propagation portion through which a first terahertz wave propagates, the first terahertz wave being generated from the second optical waveguide in a direction different from a direction of the second light beam; and a delay portion arranged at incidence sides of the first and second light beams and configured to delay the first light beam relative to the second light beam. The first optical waveguide and the second optical waveguide are arranged with the propagation portion interposed therebetween. A first equiphase surface of the first terahertz wave is substantially aligned with a second equiphase surface of a second terahertz wave generated from the first optical waveguide in a direction different from a direction of the first light beam. | 02-09-2012 |
20120032083 | TERAHERTZ WAVE TRANSCEIVER AND TOMOGRAPHIC IMAGE ACQUISITION APPARATUS - A terahertz wave transceiver configured to generate and detect terahertz waves based on time-domain spectroscopy includes a photoconductive device having a photoconductive film, a first electrode, and a second electrode. An excitation light illumination region is formed between the first and second electrodes. A bias applying unit applies a bias between the first electrode and the second electrode to generate the terahertz wave in the excitation light illumination region. A current detection unit detects a terahertz-wave current that is a component of a current generated in the excitation light illumination region and that is generated by an electric field of a received terahertz wave arriving from the outside. A current drawing unit draws a current originating from the bias applied by the bias applying unit. An adjustment unit determines the amount of the current drawn, based on the amount of the bias applied by the bias applying unit. | 02-09-2012 |
20120112844 | OSCILLATOR HAVING NEGATIVE RESISTANCE DEVICE FOR GENERATING ELECTROMAGNETIC WAVE - An oscillator having a negative resistance device and a resonator includes: a transmission line connected to the negative resistance device, a three-terminal device including a first terminal connected to the signal line side of the transmission line at a terminal part, a second terminal connected to the grounding line side of the transmission line and a third terminal receiving a control signal applied thereto; a first regulation unit for regulating the control signal to be applied to the third terminal; and a second regulation unit for regulating the voltage to be applied to the second terminal, the first and the second regulation unit being adapted to regulate respectively the control signal and the voltage so as to make the characteristic impedance of the transmission line and the impedance between the first and the second terminal show an impedance matching. The power consumption rate of the stabilizing circuit can be reduced. | 05-10-2012 |
20120223229 | IMAGE FORMING APPARATUS - An apparatus visualizing internal information of an object includes a detection unit of terahertz wave, a generating unit of a time waveform of the terahertz wave, a modulation unit, an adjustment unit, and an addition unit. The modulation unit sequentially performs spatial modulation on a propagation distance for each pixel of a terahertz wave corresponding to a pixel in a horizontal direction by using a plurality of modulation patterns, and emits a plurality of terahertz waves. Based on a time amount converted from the change of the propagation distances corresponding to the modulation patterns, the adjustment unit adjusts a position on a time axis of the time waveforms of a plurality of terahertz waves and calculates a new plurality of time waveforms. The addition unit adds a new time waveform for each pixel. The apparatus can suppress reduction in signal intensity of a terahertz wave while maintaining detection sensitivity. | 09-06-2012 |
20120318967 | TERAHERTZ WAVE MEASURING APPARATUS AND MEASUREMENT METHOD - The present invention provides a terahertz wave measuring apparatus and measurement method capable of improving the quantitativeness of obtained frequency spectrum information. In a measurement method in which a terahertz wave measuring apparatus is used, the terahertz wave measuring apparatus measures a time waveform of a terahertz wave relating to a calibration sample whose shape of a calibration spectrum is already known and obtains a measurement spectrum by transforming the time waveform. The calibration spectrum and the measurement spectrum are compared, and, on the basis of results of the comparison, time intervals of measurement data that form a time waveform are adjusted in order to calibrate the terahertz wave measuring apparatus. | 12-20-2012 |
20130218008 | MEASURING DEVICE, MEASURING METHOD, AND TOMOGRAPHIC APPARATUS - A measuring device for measuring a physical property of an object which is irradiated with an electromagnetic wave pulse. The measuring device includes a waveform obtaining unit which obtains a time waveform from a signal relating to the electromagnetic wave pulse reflected from a first reflection portion and a second reflection portion of the object. The waveform obtaining unit obtains a first obtained waveform at a first collection point where a parallel region of the electromagnetic wave pulse is adjusted by a position adjusting unit so as to be in only one of the first reflection portion and the second reflection portion of the object, and obtains a second obtained waveform at a second collection point different from the first collection point. A waveform forming unit forms a measured waveform based on the first obtained waveform and the second obtained waveform. | 08-22-2013 |
20130334421 | MEASUREMENT APPARATUS AND METHOD, TOMOGRAPHY APPARATUS AND METHOD - A measurement apparatus including a convergence unit for converging the electromagnetic wave to the object; a detection unit for detecting electromagnetic waves from the object; and an adjustment unit for adjusting a relative position between the object and the convergence position set by the convergence unit in a detecting region selected by using interval information about an interval between a first electromagnetic wave from the first reflecting surface and a second electromagnetic wave from the second reflecting surface, the first and second electromagnetic waves being acquired by using a detection result of the detection unit, in which the detecting region is a region in which a measurement position of the object at the time of detecting electromagnetic waves from the object is determined based on relative position information selected from and by using a plurality of pieces of information on the relative position corresponding to the interval information. | 12-19-2013 |
20140183363 | WAVEFRONT MEASURING APPARATUS, WAVEFRONT MEASURING METHOD, AND OBJECT MEASURING APPARATUS - The present invention provides a wavefront measuring apparatus and method, and object measuring apparatus which can increase resolution of wavefronts of electromagnetic wave pulses without being limited by the number of detecting elements. An embodiment of the present invention includes a detecting part detecting electric field strength of an electromagnetic wave pulse, and an optical delaying part delaying the electromagnetic wave pulse so as to provide a first propagation path and a second propagation path provided in a spatial region different from a spatial region of the first propagation path and having a length different from a length of the first propagation path, wherein time waveforms of the electromagnetic wave pulse are constructed using a signal associated with the electric field strength detected by the detecting part, and a wavefront is obtained based on the time waveforms and information associated with the lengths of the first and second propagation paths. | 07-03-2014 |
20140209802 | APPARATUS FOR ACQUIRING INFORMATION FROM OBJECT TO BE MEASURED AND AQUIRING METHOD THEREFOR - An apparatus configured to acquire information on an object to be measured by an electromagnetic wave pulse, the apparatus includes: a generating unit configured to generate the electromagnetic wave pulse with which the object to be measured is irradiated; a detecting unit configured to detect the electromagnetic wave pulse from the object to be measured; a casing including at least a part of a propagation path of the electromagnetic wave pulse leading from the generating unit to the detecting unit; and a measuring window unit configured to change a propagation distance of the electromagnetic wave pulse by moving a measuring window disposed in a part of the casing. The object to be measured is disposed on an opposite side of the propagation path of the electromagnetic wave pulse inside the casing by interposing the measuring window. | 07-31-2014 |
20140361177 | APPARATUS CONFIGURED TO GENERATE TERAHERTZ WAVE AND APPARATUS CONFIGURED TO DETECT TERAHERTZ WAVE - An apparatus including: an element configured to generate or detect a terahertz wave; a semi-spherical lens configured to guide the terahertz wave outgoing from the element or entering the element; and a holder configured to hold the semi-spherical lens and the element in a state in which a flat surface of the semi-spherical lens and the element are in contact with each other or in a state in which the flat surface of the semi-spherical lens and the element clamp a substance which allows the terahertz wave to pass therethrough and the flat surface of the semi-spherical lens and the element are in contact with the substance, wherein the holder includes: a resiliently deformable portion; and a position adjusting unit configured to adjust a relative position between the semi-spherical lens and the element in a direction parallel to the flat surface of the semi-spherical lens by resiliently deforming the resiliently deformable portion. | 12-11-2014 |
20150034825 | DEVICE FOR RADIATING OR RECEIVING ELECTROMAGNETIC WAVES - The present invention relates to a device for radiating or receiving an electromagnetic wave. The device includes a substrate including a recess coated by a material that reflects the electromagnetic wave, a metal portion that radiates or receives the electromagnetic wave, and an electronic element connected to the metal portion on the substrate. The metal portion includes a portion provided above an opening of the recess and a portion which is located on the substrate and connected to the electronic element. | 02-05-2015 |
20150069246 | INFORMATION OBTAINING APPARATUS AND INFORMATION OBTAINING METHOD - An information obtaining apparatus includes a splitting unit, a terahertz wave generation unit, a terahertz wave detection unit, a fiber, a changing unit that changes an optical path length difference between optical path lengths of pump light and probe light by changing an optical path length of the fiber, a waveform construction unit, and an obtaining unit that obtains information related to the optical path length of the fiber. The obtaining unit includes a splitting unit that splits the pump or probe light before propagating through the fiber into first light and second light, a formation unit that forms interfering light, and an optical detection unit that detects an intensity of the interfering light. The waveform construction unit constructs a terahertz wave time waveform by extracting a detection result of the terahertz wave detection unit based on a detection result of the optical detection unit. | 03-12-2015 |