Method of manufacturing grain-oriented electrical steel sheet exhibiting low iron loss

The invention claimed is: 1. A method of manufacturing a grain-oriented electrical steel sheet, the method comprising: measuring a thickness t, in millimeters, and a flux density of a first steel sheet; determining an irradiation energy per unit scanning length Ewmin(0.23), in Joules per meter, of a second steel sheet having a thickness of 0.23 millimeters that produces a minimum amount of iron loss from the second steel sheet, the flux density of the second steel sheet being the same as the flux density of the first steel sheet; adjusting an irradiation energy per unit scanning length E(t), in Joules per meter, of an electron beam to satisfy the following Expression (1) for the first steel sheet, Ewmin (0.23)×(1.61−2.83× t )≤ E ( t )≤ Ewmin (0.23)×(1.78−3.12× t )   Expression (1); and thereafter irradiating a surface of the first a-steel sheet to obtain a grain-oriented electrical steel sheet from the first steel sheet with an adjusted electron beam in a direction intersecting a rolling direction. 2. The method of claim 1 , wherein the sheet thickness t is 0.23 mm or less. 3. A method of manufacturing a grain-oriented electrical steel sheet, the method comprising: measuring a thickness t, in millimeters, and a flux density of a first steel sheet, wherein the thickness t of the first steel sheet is 0.23 mm or more; determining a line spacing smin(0.23), in millimeters, for a second steel sheet having a thickness of 0.23 millimeters that produces a minimum amount of iron loss from the second steel sheet, the flux density of the second steel sheet being the same as the flux density of the first steel sheet; adjusting a line spacing s(t) in millimeters of an electron beam to satisfy the following Expression (2), s min(0.23)/(1.78−3.12× t )≤ s ( t )≤ s min(0.23)/(1.61−2.83× t )  Expression (2); and thereafter irradiating a surface of the first steel sheet to obtain a grain-oriented electrical steel sheet from the first steel sheet with an adjusted electron beam in a direction intersecting a rolling direction.