Abstract: A semiconductor device includes a conductive film containing molybdenum and a metal element. The metal element has a melting point lower than the melting point of molybdenum and forms a complete solid solution with molybdenum. The metal element as a material for composing the conductive film is at least one selected from the group consisting of, for example, titanium, vanadium, and niobium.

Abstract: The present invention realizes an electric-wave absorber of a so-called electric-wave interference type, which can favorably absorb absorption electric waves of a desired frequency even when a protective layer for protecting an electric resistance film is formed on the surface of the electric resistance film, and a manufacturing method for the electric-wave absorber. In an electric-wave absorber of an electric-wave interference type, which is formed by sequentially stacking an electric resistance film 1, a dielectric layer 2, and an electric-wave shielding layer 3, absorption electric waves to be absorbed by the electric-wave absorber are waves in a high frequency band in or above a millimeter-wave band, a protective layer 4 is included on the electric resistance film, and a thickness of the dielectric layer is smaller than a reference thickness dst obtained according to the frequency of the absorption electric waves and the permittivity of the dielectric layer.

Abstract: An information processing device that executes storage control for personal information data that are stored in a storage unit in an on-vehicle device that executes an operation that is based on personal information data that are stored in the storage unit has a controller. The controller executes a deletion process that deletes personal information data that are stored in the storage unit, in a case where an end of use of a vehicle is detected, and executes a registration process that stores, in the storage unit, personal information data of a user for the on-vehicle device that are acquired from an external device, in a case where a start of use of a vehicle is detected.

Abstract: Provided are a measurement system and a radio wave shielding member that include a radio wave absorber that has light transmittance and absorbs radio waves other than the radio waves to be measured, and thus is suitable for the measurement of radio wave properties. The measurement system includes a measuring target device 11, a measuring device 12 that emits and/or receives radio waves to measure the measuring target device, and a radio wave absorber 10 that has light transmittance and absorbs radio waves in and above the millimeter wave band. The radio wave absorber includes a transparent support member 2 and a radio wave absorbing sheet 1 that is attached to one surface of the support member. The radio wave absorbing sheet includes a resistive film 3, a dielectric layer 4, and a radio wave shielding layer 5 which are stacked on top of each other and all of which have light transmittance. The radio wave absorber blocks and/or absorbs unwanted radio waves around the measuring target device.

Abstract: Provided is an electromagnetic-wave interference type electromagnetic-wave absorbing sheet that can favorably absorb electromagnetic waves in a desired frequency band while having high flexibility and light transmittance and being handled easily. The electromagnetic-wave absorbing sheet having flexibility and light transmittance includes an electric resistance film 1, a dielectric layer 2 and an electromagnetic-wave shielding layer 3 that each have light transmittance and that are stacked. The electric resistance film is formed of a conductive organic polymer, and the electromagnetic-wave shielding layer has an aperture ratio of 35% or more and 85% or less.

Abstract: A recommendation apparatus recommends content to a user. The apparatus includes: a memory that stores a probability distribution of a probability of a likelihood of matching a preference of the user; and a hardware processor. The probability distribution is across a plurality of content genres of the content. The hardware processor is programmed to: (i) select a content to be recommended to the user based on the probability distribution, (ii) update the probability distribution by learning from a feedback about acceptance or nonacceptance by the user of the content that was recommended, and (iii) obtain profile information of the user. The profile information of the user is reflected in an initial setting of the probability distribution.

Abstract: An electromagnetic wave suppression sheet includes an electromagnetic wave transmitting layer having conductivity and transparency; a suppression layer having transparency; a conductive mesh having openings formed by woven lines; and an adhesive layer having transparency in this order from an outer side toward an inner side. The openings of the conductive mesh have a region in which the suppression layer and the adhesive layer are in contact with each other. A method of manufacturing an electromagnetic wave suppression sheet includes steps of preparing a laminate including the suppression layer, and the conductive mesh disposed to be in contact with the suppression layer; and applying a pressure to the conductive mesh in a direction of the suppression layer.

Abstract: A so-called electromagnetic-wave interference type electromagnetic-wave absorbing sheet is realized which is low-cost and can favorably absorb electromagnetic waves in a desired frequency band that are incident not only in a direction perpendicular to the sheet surface, but also in a wide incidence angle range. The electromagnetic-wave absorbing sheet is formed by stacking an electric resistance film 1, a dielectric layer 2, and an electromagnetic-wave shielding layer 3. The electric resistance film is formed using a conductive organic polymer, and a surface electric resistance of the electric resistance film is 303 Q/sq or more and 350 Q/sq or less, or 415 Q/sq or more and 502 Q/sq or less.

Abstract: Provided is an electromagnetic-wave absorbing sheet of an electromagnetic-wave interference type that can favorably absorb electromagnetic waves in a frequency band equal to or higher than the millimeter-wave band and can be produced at low cost. The electromagnetic-wave absorbing sheet of an electromagnetic-wave interference type includes an electric resistance film 1 formed of a conductive organic polymer, a dielectric layer 2 having adhesiveness, and an electromagnetic-wave shielding layer 3 that are sequentially stacked. The sheet as a whole has flexibility. A thickness of the dielectric layer is set so that the dielectric layer can absorb electromagnetic waves in a frequency band equal to or higher than the millimeter-wave band.

Abstract: Provided is an electromagnetic-wave interference type electromagnetic-wave absorbing sheet that can favorably absorb electromagnetic waves in a desired frequency band while having high flexibility and light transmittance and being handled easily. The electromagnetic-wave absorbing sheet having flexibility and light transmittance includes an electric resistance film 1, a dielectric layer 2 and an electromagnetic-wave shielding layer 3 that each have light transmittance and that are stacked. The electric resistance film is formed of a conductive organic polymer, and the electromagnetic-wave shielding layer has an aperture ratio of 35% or more and 85% or less.

Abstract: Provided is an electromagnetic-wave absorbing sheet that can favorably absorb electromagnetic waves while having high flexibility and being handled easily. The electromagnetic-wave absorbing sheet having flexibility includes an electric resistance film 1 and a dielectric layer 2 and an electromagnetic-wave shielding layer 3 that are stacked sequentially. The electric resistance film is formed of a conductive organic polymer.