Abstract: According to one aspect of the technique, there is provided a configuration including: a furnace body covering a reaction chamber; a heating element divided into zones and provided in the furnace body; first temperature sensors provided for the zones such that its temperature measuring point is arranged near the heating element; second temperature sensors provided such that its temperature measuring point is provided close to a temperature measuring point of a first temperature sensor; and temperature meters provided at the zones to hold the temperature measuring points of the first and the second temperature sensors to be close to each other in a protection pipe. Each temperature meter penetrates an outer periphery of the furnace body perpendicular to a central axis of the reaction chamber such that a front end of the protection pipe is located outside the reaction tube and on a tube axis thereof.

Abstract: According to the technique of the present disclosure, there is provided a substrate processing apparatus including: a reaction tube accommodating therein a plurality of substrates vertically arranged; and a first heater configured to heat an inside of the reaction tube from an upper portion of the reaction tube, wherein a heat generating amount of the first heater in a region corresponding to a low temperature portion of an upper substrate among the plurality of the substrates accommodated in the reaction tube is greater than a heat generating amount of the first heater in a region corresponding to a high temperature portion of the upper substrate.

Abstract: Provided is a power control device 100 comprising: a current detector 31 that measures a combined current value obtained by combining currents flowing through a plurality of loads 1-4; and an output calculation unit 11 that calculates a correction value obtained by dividing a total value of products of operation output values for the loads 1-4 and rated current values of the loads 1-4, respectively, by the combined current value obtained by the current detector 31, and that performs power supply control for the loads 1-4 on the basis of a corrected operation output value that is a product of the operation output value and the correction value for each of the loads 1-4, in which in a system that heats or cools a workpiece by means of a plurality of loads, heating control or cooling control can be performed in which an effect of a fluctuation in load characteristics is reduced.

Abstract: A support glass substrate of the present invention is a support glass substrate for supporting a substrate to be processed, the support glass substrate including lithium aluminosilicate-based glass, having a content of Li2O of from 0.02 mol % to 25 mol % in a glass composition, and having an average linear thermal expansion coefficient within a temperature range of from 30° C. to 380° C. of 38×10?7/° C. or more and 160×10?7/° C. or less.

Abstract: Provided is a power control device 100 comprising: a current detector 31 that measures a combined current value obtained by combining currents flowing through a plurality of loads 1-4; and an output calculation unit 11 that calculates a correction value obtained by dividing a total value of products of operation output values for the loads 1-4 and rated current values of the loads 1-4, respectively, by the combined current value obtained by the current detector 31, and that performs power supply control for the loads 1-4 on the basis of a corrected operation output value that is a product of the operation output value and the correction value for each of the loads 1-4, in which in a system that heats or cools a workpiece by means of a plurality of loads, heating control or cooling control can be performed in which an effect of a fluctuation in load characteristics is reduced.

Abstract: A display substrate of the present invention has a thermal shrinkage value of 10 ppm or less when the display substrate is increased in temperature from normal temperature to 500° C. at a temperature increase rate of 5° C./min, held at 500° C. for 1 hour, and then cooled to normal temperature at a temperature decrease rate of 5° C./min.

Abstract: A technical object of the present invention is to devise an alkali-free glass substrate having high devitrification resistance and high heat resistance. In order to achieve the above-mentioned technical object, the alkali-free glass substrate of the present invention includes as a glass composition, in terms of mol %, 60% to 80% of SiO2, 8% to 25% of Al2O3, 0% to less than 3% of B2O3, 0% to less than 1% of Li2O+Na2O+K2O, 0% to 10% of MgO, 1% to 15% of CaO, 0% to 12% of SrO, 0% to 12% of BaO, 0% to less than 0.05% of As2O3, and 0% to less than 0.05% of Sb2O3, and has a thickness of from 0.05 mm to 0.7 mm, a strain point of 700° C. or more, and a ?-OH value of less than 0.20/mm.

Abstract: The invention relates to a composition comprising at least one aminobenzamide compound or a salt thereof for controlling animal parasites, veterinary pharmaceutical compositions comprising at least one aminobenzamide of formula (I) for preventing infection with diseases transmitted through parasites, its use for the preparation of a veterinary pharmaceutical for controlling animal parasites, and a method for preventing infection with diseases transmitted through parasites.

Abstract: A display device includes an input unit that receives input of two-dimensional information, a display that displays a screen and a control unit. When determining that one of a plurality of blocks into which the screen is two-dimensionally divided is selected based on a one-dimensional component of the information received by the input unit, the control unit magnifies and displays the selected block on the display with a first magnification factor which allows visual recognition of remaining blocks none of which has been selected. When detecting decision to magnify the selected block, the control unit magnifies and displays the selected block on the display with a second magnification factor larger than the first magnification factor.

Abstract: The invention relates to a composition comprising at least one aminobenzamide compound or a salt thereof for controlling animal parasites, veterinary pharmaceutical compositions comprising at least one aminobenzamide of formula (I) for preventing infection with diseases transmitted through parasites, its use for the preparation of a veterinary pharmaceutical for controlling animal parasites, and a method for preventing infection with diseases transmitted through parasites.

Abstract: A technical object of the present invention is to devise an alkali-free glass substrate having high devitrification resistance and high heat resistance. In order to achieve the above-mentioned technical object, the alkali-free glass substrate of the present invention includes as a glass composition, in terms of mol %, 60% to 80% of SiO2, 8% to 25% of Al2O3, 0% to less than 3% of B2O3, 0% to less than 1% of Li2O+Na2O+K2O, 0% to 10% of MgO, 1% to 15% of CaO, 0% to 12% of SrO, 0% to 12% of BaO, 0% to less than 0.05% of As2O3, and 0% to less than 0.05% of Sb2O3, and has a thickness of from 0.05 mm to 0.7 mm, a strain point of 700° C. or more, and a ?-OH value of less than 0.20/mm.

Abstract: The invention relates to a composition comprising at least one aminobenzamide compound or a salt thereof for controlling animal parasites, veterinary pharmaceutical compositions comprising at least one aminobenzamide of formula (I) for preventing infection with diseases transmitted through parasites, its use for the preparation of a veterinary pharmaceutical for controlling animal parasites, and a method for preventing infection with diseases transmitted through parasites.

Abstract: An arylalkyloxypyrimidine derivative represented by the formula (I) wherein R1 is an alkyl group, a cycloalkyl group, an alkenyl group, an alkynyl group, a haloalkyl group, a haloalkenyl group, a haloalkynyl group, an alkoxyalkyl group, a dioxolane group and the like; R2 and R3 are each a hydrogen atom, an alkyl group and the like; X is an alkyl group, a cycloalkyl group, an alkenyl group, an alkynyl group, a haloalkyl group, a haloalkenyl group, a haloalkynyl group, a trialkylsilyl group and the like; Y is CH or a nitrogen atom; q is an integer of 1 to 3; m is an integer of 0 to 5; and n is 0 or 1 or a salt thereof, and an agrohorticultural insecticide containing the compound as an active ingredient and a method of use thereof.

Abstract: Arylpyrrolidines of Formula (I): wherein each substituent is as defined in the specification, and use thereof as pesticides and animal parasite-controlling agents.

Abstract: To provide pesticidal allylAryl heterocycle derivatives that are useful as a pesticidal compound. Pesticidal allylAryl heterocycle derivatives that are expressed by the Formula (I), and pesticides and an agent for controlling animal parasites which include the allylAryl heterocycle derivatives as an effective component.

Abstract: The invention is directed to arylpyrrolidines compounds which exhibit excellent insecticidal efficacy and which may be used as in the agrochemical field or in the field of veterinary medicine. The compounds are represented by formula (I): wherein the respective substituents are defined in the specification.

Abstract: The invention is directed to arylpyrrolidines compounds which exhibit excellent insecticidal efficacy and which may be used as in the agrochemical field or in the field of veterinary medicine. The compounds are represented by formula (I): wherein the respective substituents are defined in the specification.

Abstract: The object of the present invention is to provide novel carboxamides which exhibit an excellent pesticidal activity as pesticides. Disclosed are the carboxamides represented by the following Formula (I): wherein each substituent is as defined in the specification, and use thereof as pesticides and animal parasite controlling agents.

Abstract: An exhaust gas purification device includes an exhaust gas after-treatment device provided in an exhaust passage of an internal combustion engine, and has an oxidation catalyst and a DPF or diesel particulate filter. The exhaust gas purification device also includes an exhaust pipe injector which feeds a fuel to the oxidation catalyst, and a control unit which controls regeneration of the filter by supplying the oxidation catalyst with the fuel from the exhaust pipe injector. The control unit determines whether the filter is in a regeneration-possible state, i.e., whether the oxidation catalyst is maintained at a high temperature allowing regeneration of the filter. If the control unit determines during regeneration control of the filter that the filter is not in the regeneration-possible state, then the control unit halts the regeneration control until the regeneration-possible state is reached.

Abstract: The invention relates to novel arylpyrroline compounds of formula (I) which have excellent insecticidal activity and which can thus be used as an insecticide.