Abstract: To divide a ?-type gallium oxide substrate having a (001) plane as a main surface satisfactorily. A method of diving a gallium oxide substrate includes: a step of forming a plurality of dividing grooves along the extending direction of the (100) plane of a ?-type gallium oxide substrate having the (001) plane as the main surface; a step of processing the ?-type gallium oxide substrate into strips by cutting the substrate in a direction perpendicular to the extending direction of the dividing grooves; and a step of cleaving the strip-shaped ?-type gallium oxide substrates 10 along the dividing grooves for singulation. Since the plurality of dividing grooves are thus formed along the cleavage planes, the substrate can be divided satisfactorily without causing flaky peeling on the cleavage surfaces by cleaving the substrate along the dividing grooves.

Abstract: An object of the present invention is to provide a 2,6-dioxo-3,6-dihydropyrimidine compound that has excellent bactericidal and antimicrobial activity, has excellent safety, and can be industrially favorably synthesized, and an agricultural and horticultural fungicide, a nematicide, and an antifungal agent for use in medicine/animals that contain the compound as an active ingredient.

Abstract: A crucible for growing a single-crystal in which a raw material melt for growing the single-crystal is solidified while being accommodated includes a side wall part configured to surround the raw material melt and a bottom part configured to support the raw material melt while being continuous with the side wall part, in which the side wall part has circumferential length redundancy inside the side wall part in a cross-sectional view. The side wall part has a portion where the circumference length is redundant inside any portion in the cross-sectional view, and when the crucible for growing a single-crystal is cooled in a cooling process after the single-crystal growth, the portion where the circumference length is redundant inside in the cross-sectional view is expanded to an outside of the crucible for growing a single-crystal.

Abstract: To prevent dielectric breakdown of a Schottky barrier diode using gallium oxide. A Schottky barrier diode has a drift layer provided on a semiconductor substrate, an anode electrode, and a cathode electrode. A width W1 of an outer peripheral trench formed in the drift layer is larger than a width W2 of a center trench. An outer peripheral wall S1 of the outer peripheral trench is curved so as to approach vertical toward the outside, while an inner peripheral wall S2 thereof is closer to vertical than the outer peripheral wall S1. This relaxes an electric field which occurs at the outer peripheral bottom portion of the outer peripheral trench upon application of a backward voltage.

Abstract: A flying robot includes a body portion, a propulsion portion including a plurality of propulsion units configured to generate propulsion force by driving rotor blades, the plurality of propulsion units being provided at the body portion, a plurality of leg portions configured to support the body portion, each leg portion of the plurality of leg portions including at least one joint and being configured to be able to change a posture of the leg portion, and a controller configured to control the plurality of leg portions when landing on a landing surface from a flying state, and the controller controls part or all of at least one leg portion among the plurality of leg portions to adjust a tilt of the body portion from when the at least one leg portion comes into contact with the landing surface until when landing on the landing surface is completed.

Abstract: The present invention provides a method for testing quickly and easily the manner in which an antithrombotic agent inhibits the acceleration of blood coagulation when a platelet agonist causes acceleration of blood coagulation. The invention is a test method wherein a system in which an anticoagulant is added to a portion of blood sampled from a patient being administered an antithrombotic agent (X system blood), and a system in which an anticoagulant and adenosine diphosphate or collagen are added to a portion of the abovementioned blood (Y system blood) are simultaneously measured by thromboelastograph; and the efficacy of the antithrombotic agent is assessed by comparing the R values of the X system blood and the Y system blood. If the R value of the Y system blood is not found to differ significantly from the R value of the X system blood, the drug is judged to be working. Adenosine diphosphate and collagen can be used as the anticoagulant.

Abstract: The present invention provides a method for testing quickly and easily the manner in which an antithrombotic agent inhibits the acceleration of blood coagulation when a platelet agonist causes acceleration of blood coagulation. The invention is a test method wherein a system in which an anticoagulant is added to a portion of blood sampled from a patient being administered an antithrombotic agent (X system blood), and a system in which an anticoagulant and adenosine diphosphate or collagen are added to a portion of the abovementioned blood (Y system blood) are simultaneously measured by thromboelastograph; and the efficacy of the antithrombotic agent is assessed by comparing the R values of the X system blood and the Y system blood. If the R value of the Y system blood is not found to differ significantly from the R value of the X system blood, the drug is judged to be working. Adenosine diphosphate and collagen can be used as the anticoagulant.