Abstract: A forming method of forming a micropattern which has a direction and a position controlled for each predetermined position on an object subjected to pattern formation, and an imprinting mold producing method, an imprinting mold and an optical device to which such a forming method is applied.

Abstract: A polarizer that suppresses a decrease in extinction ratio due to leakage light in a Cross Nicol condition, a display that utilizes the same, and an ultraviolet emitting apparatus are provided. A polarizer includes a substrate transparent to light within a utilized bandwidth, a wire grid portion including a plurality of wires which extends in a direction and which is arranged side by side at a pitch shorter than a wavelength of the light, and a polarizing axis correcting portion which is formed of a dielectric provided at a side at which the light enters the wire grid portion, and which performs correction so as to reduce a displacement in an angle between an incidence-side transmittance axis of linear polarized light and an emitting-side absorption axis thereof when the linear polarized light within the utilized bandwidth enters at an azimuth angle of 45 degrees relative to the wires.

Abstract: An optical device including at least a part of a rotation body acquired by rotating a reference plane shape or a parallelly shifted body acquired by parallelly shifting the reference plane shape, the reference plane shape including an incidence portion allowing light from a predetermined site to enter, an emit portion that reflects the light which has traveled through the incidence portion and which is directly irradiated and a first reflection portion that reflects the reflected light by the emit portion toward the emit portion. The reference plane shape may include a second reflection portion that reflects the light which has traveled through the incidence portion and which is directly irradiated to the emit portion. An optical system apparatus includes a light source placed at the predetermined site.

Abstract: An optical member having high mechanical strength and high optical characteristics such as transmittance, a liquid crystal panel using the optical member, and manufacturing methods therefor. An optical member includes a substrate that has a material transparent to light of wavelengths in a band to be used, a wire grid part in which a plurality of protruding sections are disposed in a line and space pattern on the substrate, a cover that includes a dielectric transparent to light in the band to be used, and covers the wire grid part, and a void part that is formed between the adjacent protruding sections of the wire grid part and protrudes to the cover side beyond a straight line connecting tops of the adjacent protruding sections.

Abstract: An optical device which can be easily manufactured and which is capable of guiding light to a forward widespread range without waste, and an optical system apparatus that utilizes the same. The optical device controls a light distribution of entering light from a predetermined site and emits the controlled light, and includes a reflection utilizing portion that includes a plurality of convex structures each including an incidence surface allowing the light from the predetermined site to travel therethrough, and a reflection surface reflecting the traveling light through the incidence surface in a predetermined direction, and an emit surface that emits that emits the reflected light by the reflection surface in a predetermine light distribution direction.

Abstract: An optical device including at least a part of a rotation body acquired by rotating a reference plane shape or a parallelly shifted body acquired by parallelly shifting the reference plane shape, the reference plane shape including an incidence portion allowing light from a predetermined site to enter, an emit portion that reflects the light which has traveled through the incidence portion and which is directly irradiated and a first reflection portion that reflects the reflected light by the emit portion toward the emit portion. The reference plane shape may include a second reflection portion that reflects the light which has traveled through the incidence portion and which is directly irradiated to the emit portion. An optical system apparatus includes a light source placed at the predetermined site.

Abstract: An optical image formation apparatus which has a high brightness of an actual image, easy for manufacturing, and reduces costs. This optical image formation apparatus mainly includes a polarizer causing P polarization light to pass through, and reflecting S polarization light, a phase difference element converting either one of or both of the P polarization light having passed through the polarizer or the S polarization light reflected by the polarizer into circular polarization light or elliptical polarization light, and a recursive light reflector recursively reflecting the light having passed through the phase difference element.

Abstract: An optical element which is capable of improving the degree of transmission of electromagnetic waves, and which does not require positioning; a light emitting element; an optical device which uses this light emitting element; and a method for producing this optical element.

Abstract: A photoelectric conversion device includes: a first optical filter that has a first pattern periodically having a plurality of structures and is formed of a conductive material film disposed on a first photoelectric conversion element with an insulating film therebetween; and a first optical filter that has a second pattern periodically having a plurality of structures and is formed of a conductive material film disposed on a second photoelectric conversion element with the insulating film therebetween. The interval between the first pattern and the second pattern that are adjacent to each other is longer than a period of the structures in the first pattern and a period of the structures in the second pattern.

Abstract: A photoelectric conversion device capable of preventing anomalous transmission of light of a wavelength that is not supposed to be transmitted and reducing the half-width of a spectral waveform and a method for manufacturing such a photoelectric conversion device are provided. A first photoelectric conversion element is formed on a substrate. A first metal film having a plurality of openings arranged periodically or aperiodically is formed above the first photoelectric conversion element with insulating films interposed therebetween. A second metal film covering a part of the openings in the first metal film is provided.

Abstract: An optical filter configured to transmit light of a predetermined wavelength includes a substrate; a first conductive thin film that is disposed on the substrate and has apertures extending through the first conductive thin film and arranged with a period of less than the predetermined wavelength; and a second conductive thin film at least a portion of which faces the apertures so as to be separated from the apertures.

Abstract: A photoelectric conversion device includes: a first optical filter that has a first pattern periodically having a plurality of structures and is formed of a conductive material film disposed on a first photoelectric conversion element with an insulating film therebetween; and a first optical filter that has a second pattern periodically having a plurality of structures and is formed of a conductive material film disposed on a second photoelectric conversion element with the insulating film therebetween. The interval between the first pattern and the second pattern that are adjacent to each other is longer than a period of the structures in the first pattern and a period of the structures in the second pattern.

Abstract: A photoelectric conversion device capable of preventing anomalous transmission of light of a wavelength that is not supposed to be transmitted and reducing the half-width of a spectral waveform and a method for manufacturing such a photoelectric conversion device are provided. A first photoelectric conversion element is formed on a substrate. A first metal film having a plurality of openings arranged periodically or aperiodically is formed above the first photoelectric conversion element with insulating films interposed therebetween. A second metal film covering a part of the openings in the first metal film is provided.

Abstract: A circuit-integrated photoelectric converter in which a dished portion is less likely to be formed in an insulating layer underlying a plasmonic filter portion and the plasmonic filter portion can be accurately and finely processed is provided and a method for manufacturing the same is provided. A metal layer (31) is disposed on an insulating layer (7) above a wiring layer (11, 12, 13). This metal layer (31) includes a plasmonic filter portion (32) and a shield metal portion (33) that blocks light. The plasmonic filter portion (32) having cyclic holes (32a) to guide light having a selected wavelength to a first photoelectric converting element (101).

Abstract: A semiconductor memory device includes a writing circuit and a reading circuit. The writing circuit executes a setting action for converting a resistance of a variable resistance element to a low resistance by applying current from one end side to the other end side of a memory cell via the variable resistance element, and a resetting action for converting the resistance to a high resistance by applying current from the other end side to the one end side via the variable resistance element. The reading circuit executes a first reading action for reading a resistance state of the variable resistance element by applying current from one end side to the other end side of the memory cell via the variable resistance element, and a second reading action for reading the resistance state by applying current from the other end side to the one end side via the variable resistance element.

Abstract: An optical filter configured to transmit light of a predetermined wavelength includes a substrate; a first conductive thin film that is disposed on the substrate and has apertures extending through the first conductive thin film and arranged with a period of less than the predetermined wavelength; and a second conductive thin film at least a portion of which faces the apertures so as to be separated from the apertures.

Abstract: The invention provides a semiconductor memory device including a variable resistance element capable of decreasing a variation of a resistance value of stored data due to a large number of times of switching operations and capable of performing a stable writing operation. The device has a circuit that applies a reforming voltage pulse to a memory cell including a variable resistance element of a degraded switching characteristic and a small read margin due to a large number of times of application of a write voltage pulse, to return each resistance state of the variable resistance element to an initial resistance state. By applying the reforming voltage pulse, the variable resistance element can recover at least one resistance state from a variation from the initial resistance state, and can recover the switching characteristic. Accordingly, there is obtained a semiconductor memory device in which a reduction of a read margin is suppressed.

Abstract: In a semiconductor memory device using a variable resistive element made of a metal oxide for storing information, a voltage amplitude of a writing voltage pulse for changing the variable resistive element to a high resistance state is set within a voltage range in which the resistance value of the high resistance state after the change increases with time. The voltage amplitude is set within the voltage range in which the resistance value of the high resistance state after the change increases toward a predetermined peak with increase in voltage amplitude. When a data error is detected by the ECC circuit, it is estimated that the data that should be in the low resistance state changes to the high resistance state, and the variable resistive elements of all memory cells from which the error is detected are written to the low resistance state to correct the error bit.

Abstract: The invention realizes a semiconductor memory device that can efficiently execute a detection of a data error that might possibly occur in a continuous reading action, and a correction of the error data. The semiconductor memory device uses a variable resistive element made of a metal oxide for storing information. During a reading action of coded data with an ECC in the semiconductor memory device, when a data error is detected by an ECC circuit, a writing voltage pulse having a polarity opposite to a polarity of a reading voltage pulse is applied to all memory cells from which the error is detected so as to correct bits from which the error is detected, on an assumption that an erroneous writing has occurred due to the application of the writing voltage pulse having the polarity same as the polarity of the applied reading voltage pulse.

Abstract: A nonvolatile semiconductor memory device include: a two terminal structured variable resistive element, wherein resistive characteristics defined by current-voltage characteristics at both ends transit between low and high resistance states stably by applying a voltage satisfying predetermined conditions to the both ends. A transition from the low resistance state to the high resistance state occurs by applying a voltage of a first polarity whose absolute value is at or higher than first threshold voltage, and the reverse transition occurs by applying a voltage of a second polarity whose absolute value is at or higher than a second threshold voltage. A load circuit is connected to the variable resistive element in series having an adjustable load resistance. A voltage generation circuit applies a voltage to both ends of a serial circuit. The variable resistive element can transit between the states by adjusting a resistance of the load circuit.